Recherche par propriété

Cette page fournit une simple interface de navigation pour trouver des entités décrites par une propriété et une valeur nommée. D’autres interfaces de recherche disponibles comprennent la page recherche de propriété, et le constructeur de requêtes ask.

Liste de résultats

• Pad d'arcade  + (Un projet réalisé au [[Group:LabBoîte Cergy|fablab LabBoîte de Cergy]] à retrouver aussi sur [https://github.com/hugotpichon/arcpad-pic18f4550 github.com/hugotpichon/arcpad-pic18f4550].)
• Puzzle en bois  + (Un tuto instructables fort sympathique dan … Un tuto instructables fort sympathique dans la veine de celui-ci : http://www.instructables.com/id/Laser-cut-Jigsaw-Puzzle/ Le lien vers l'extension Puzzle pour inkscape : https://inkscape.org/fr/~Neon22/%E2%98%85lasercut-jigsaw La belle boîte cadeau paramétrique à découper https://www.thingiverse.com/thing:17240 10 astuces pour la découpe laser (en anglais) : http://www.instructables.com/id/10-Tips-and-Tricks-for-Laser-Engraving-and-Cutting/ Un article sur lequel je suis tombé pendant mes recherches https://hackaday.com/2016/11/05/hackit-laser-cut-your-own-jigsaw-puzzle/ Le site de Trotec Laser qui montre d'autres exemples de matières avec un bon rendu en gravure : https://www.troteclaser.com/fr/savoir-faire/exemples-laser/claser.com/fr/savoir-faire/exemples-laser/)
• Puzzle en bois  + (Un tuto instructables fort sympathique dan … Un tuto instructables fort sympathique dans la veine de celui-ci : http://www.instructables.com/id/Laser-cut-Jigsaw-Puzzle/ Le lien vers l'extension Puzzle pour inkscape : https://inkscape.org/fr/~Neon22/%E2%98%85lasercut-jigsaw La belle boîte cadeau paramétrique à découper https://www.thingiverse.com/thing:17240 10 astuces pour la découpe laser (en anglais) : http://www.instructables.com/id/10-Tips-and-Tricks-for-Laser-Engraving-and-Cutting/ Un article sur lequel je suis tombé pendant mes recherches https://hackaday.com/2016/11/05/hackit-laser-cut-your-own-jigsaw-puzzle/ Le site de Trotec Laser qui montre d'autres exemples de matières avec un bon rendu en gravure : https://www.troteclaser.com/fr/savoir-faire/exemples-laser/claser.com/fr/savoir-faire/exemples-laser/)
• Rocket kit  + (Une création du [[Group:Makers' lab|Maker's Lab emlyon]] à retrouver aussi sur [https://www.thingiverse.com/thing:2440907 thingiverse.com/thing:2440907].)
• Rocket kit  + (Une création du [[Group:Makers' lab|Maker's Lab emlyon]] à retrouver aussi sur [https://www.thingiverse.com/thing:2440907 thingiverse.com/thing:2440907].)
• Nid pour oiseau  + (Une création originale de Kossel Mini. '' … Une création originale de Kossel Mini. '''A voir aussi :''' le site de sciences participatives du Muséum national d'Histoire naturelle et de la LPO sur l'observation des oiseaux [https://www.oiseauxdesjardins.fr/ oiseauxdesjardins.fr] Identifiez les espèces qui viennent chez vous, partagez vos données aux chercheurs et participez au suivi de la biodiversité en France.pez au suivi de la biodiversité en France.)
• Nid pour oiseau  + (Une création originale de Kossel Mini. '' … Une création originale de Kossel Mini. '''A voir aussi :''' le site de sciences participatives du Muséum national d'Histoire naturelle et de la LPO sur l'observation des oiseaux [https://www.oiseauxdesjardins.fr/ oiseauxdesjardins.fr] Identifiez les espèces qui viennent chez vous, partagez vos données aux chercheurs et participez au suivi de la biodiversité en France.pez au suivi de la biodiversité en France.)
• Prothèse de main  + (Version du [[Group:Makers' lab|Makers' lab de Lyon]]. '''Voir aussi''' * Site officiel de l'association e-nable : [https://e-nable.fr/ e-nable.fr] * Site du makers' lab emlyon : [http://makerslab.em-lyon.com/ makerslab.em-lyon.com])
• Prothèse de main  + (Version du [[Group:Makers' lab|Makers' lab de Lyon]]. '''Voir aussi''' * Site officiel de l'association e-nable : [https://e-nable.fr/ e-nable.fr] * Site du makers' lab emlyon : [http://makerslab.em-lyon.com/ makerslab.em-lyon.com])
• Imprimer un objet avec ULTIMAKER  + (Voir aussi : [[Marvin|Tutoriel pour impression 3D avec le logiciel Z-Suit et une imprimante Zotrax M200]].)
• Imprimer un objet avec ULTIMAKER  + (Voir aussi : [[Marvin|Tutoriel pour impression 3D avec le logiciel Z-Suit et une imprimante Zotrax M200]].)
• Arrosoir automatique  + (Voir aussi le turoriel [http://www.instructables.com/id/No-Pump-Automatic-Watering/ No Pump Automatic Watering] sur Instructables.)
• Arrosoir automatique  + (Voir aussi le turoriel [http://www.instructables.com/id/No-Pump-Automatic-Watering/ No Pump Automatic Watering] sur Instructables.)
• Auvent entrée de ruche  + (Voir aussi le tutoriel opensource [[Hausse de ruche]] pour construire une hausse de ruche soit-même.)
• Auvent entrée de ruche  + (Voir aussi le tutoriel opensource [[Hausse de ruche]] pour construire une hausse de ruche soit-même.)
• Construire une Serre de Jardin  + (Voir les étapes détaillées du projet de se … Voir les étapes détaillées du projet de serre de jardin ====> http://www.france-jardinage.com/serre/serre.html Résumé du projet =====> http://www.jardinage-quebec.com/guide/construire-une-serre/plan-de-serre.html Voir nos 100 guides de projets détaillés de Jardinage Bricolage et Autosuffisance ===> http://www.france-jardinage.com/uffisance ===> http://www.france-jardinage.com/)
• Construire une Serre de Jardin  + (Voir les étapes détaillées du projet de se … Voir les étapes détaillées du projet de serre de jardin ====> http://www.france-jardinage.com/serre/serre.html Résumé du projet =====> http://www.jardinage-quebec.com/guide/construire-une-serre/plan-de-serre.html Voir nos 100 guides de projets détaillés de Jardinage Bricolage et Autosuffisance ===> http://www.france-jardinage.com/uffisance ===> http://www.france-jardinage.com/)
• Présentoir lumineux pour super héros et monuments découpés en mdf et pmma à partir de dessins d'enfants  + (Vous avez échappé aux super héros suivants … Vous avez échappé aux super héros suivants, qui n'ont malheureusement pas pu être inclus dans la scène mais qui seront néanmoins découpés avec le même soin pour être remis à leurs auteurs respectifs. Mega métal : Il se transforme en métal, plus il est en colère plus des bras lui poussent dessus et il grandit. Il est tombé dans une cuve d'asside nucléaire et il s'est transformé en méga métal. Elektrifiant : il a tellement d'éléctricité dans son corps qu'il peut lancer ses flèches éléctriques et ses vaisseaux éléctrifiants et il peut surtout commander l'éléctricité n'importe ou (mais pas près d'electress et d'éléctron j'imagine ça doit entrer en conflit). Méchant pique : un jour un super méchant arriva, il emporta un super héros et lui lança du venin. Super ninja (l'autre) : il est devenu gentil en tranchant un prisonnier qui s'est échappé d'une prison (au moins ça finit bien). Super ninja (le troisième) : il a une vitesse de 8100 "jigaoite". Il a tourné dans une roue de hamster géante pendant 4 h et il a une vitesse de 8100 jigaoite. Vous allez me dire que le jigaoite n'est pas une unité de vitesse mais j'ai vérifié ça n'est pas au programme de la classe de l'auteur du dessin cette année. Super tomate à dents de sabre : il peut se mettre en boule et ses dents, quand il les prend, il les lance, et après il a d'autres dents qui poussent. Giga crocosor : il est devenu super héros en combattant des centaines de méchants (vers Marseille). Pakmanou : il sauve des gens, il peut voler, il sauve tout le monde. Bat Girl : Elle est tombée d'un arbre, elle a été touchée par la foudre avec ses chiens. Quand tout le monde se réveille ils se rendent compte qu'ils ont des super pouvoirs (de type éclair). Super coquillage : son pouvoir est de faire apparaitre plein de coquillages. Le lapipatate : il a un projecteur qui lance des patates. Remerciements : un grand merci à l'équipe d'animateurs de l'école Jacques Cartier à Pessac, aux enfants qui ont participé, et bien sur à eirlab où tout a été réalisé.  Réalisé par l'école Jacques Cartier, 33600 Pessac à Eirlab www.eirlab.frrtier, 33600 Pessac à Eirlab www.eirlab.fr)
• Présentoir lumineux pour super héros et monuments découpés en mdf et pmma à partir de dessins d'enfants  + (Vous avez échappé aux super héros suivants … Vous avez échappé aux super héros suivants, qui n'ont malheureusement pas pu être inclus dans la scène mais qui seront néanmoins découpés avec le même soin pour être remis à leurs auteurs respectifs. Mega métal : Il se transforme en métal, plus il est en colère plus des bras lui poussent dessus et il grandit. Il est tombé dans une cuve d'asside nucléaire et il s'est transformé en méga métal. Elektrifiant : il a tellement d'éléctricité dans son corps qu'il peut lancer ses flèches éléctriques et ses vaisseaux éléctrifiants et il peut surtout commander l'éléctricité n'importe ou (mais pas près d'electress et d'éléctron j'imagine ça doit entrer en conflit). Méchant pique : un jour un super méchant arriva, il emporta un super héros et lui lança du venin. Super ninja (l'autre) : il est devenu gentil en tranchant un prisonnier qui s'est échappé d'une prison (au moins ça finit bien). Super ninja (le troisième) : il a une vitesse de 8100 "jigaoite". Il a tourné dans une roue de hamster géante pendant 4 h et il a une vitesse de 8100 jigaoite. Vous allez me dire que le jigaoite n'est pas une unité de vitesse mais j'ai vérifié ça n'est pas au programme de la classe de l'auteur du dessin cette année. Super tomate à dents de sabre : il peut se mettre en boule et ses dents, quand il les prend, il les lance, et après il a d'autres dents qui poussent. Giga crocosor : il est devenu super héros en combattant des centaines de méchants (vers Marseille). Pakmanou : il sauve des gens, il peut voler, il sauve tout le monde. Bat Girl : Elle est tombée d'un arbre, elle a été touchée par la foudre avec ses chiens. Quand tout le monde se réveille ils se rendent compte qu'ils ont des super pouvoirs (de type éclair). Super coquillage : son pouvoir est de faire apparaitre plein de coquillages. Le lapipatate : il a un projecteur qui lance des patates. Remerciements : un grand merci à l'équipe d'animateurs de l'école Jacques Cartier à Pessac, aux enfants qui ont participé, et bien sur à eirlab où tout a été réalisé.  Réalisé par l'école Jacques Cartier, 33600 Pessac à Eirlab www.eirlab.frrtier, 33600 Pessac à Eirlab www.eirlab.fr)
• Hôtel à insectes  + (Vous pouvez participer au suivi de la biod … Vous pouvez participer au suivi de la biodiversité sur tout le territoire avec les scientifiques du Muséum d'Histoire naturelle en vous inscrivant sur l'[https://obj.mnhn.fr/ Observatoire de la Biodiversité] - papillons, bourdons. Pour les oiseaux, le site [https://www.oiseauxdesjardins.fr/ oiseauxdesjardins.fr] est très bien fait. oiseauxdesjardins.fr] est très bien fait.)
• Hôtel à insectes  + (Vous pouvez participer au suivi de la biod … Vous pouvez participer au suivi de la biodiversité sur tout le territoire avec les scientifiques du Muséum d'Histoire naturelle en vous inscrivant sur l'[https://obj.mnhn.fr/ Observatoire de la Biodiversité] - papillons, bourdons. Pour les oiseaux, le site [https://www.oiseauxdesjardins.fr/ oiseauxdesjardins.fr] est très bien fait. oiseauxdesjardins.fr] est très bien fait.)
• Lampe articulée en bois  + (Youcanscie est un blog sur la confection d … Youcanscie est un blog sur la confection de meubles et de décorations réalisés en partie à partir de récupération (rue, dons, fin de braderie...). Nous partageons nos connaissances et nos expériences de l'upcycling afin de montrer qu'il est possible de s'équiper autrement en réduisant les déchets. Pour voir tous nos tutoriels : https://youcanscie.wordpress.com/riels : https://youcanscie.wordpress.com/)
• Lampe articulée en bois  + (Youcanscie est un blog sur la confection d … Youcanscie est un blog sur la confection de meubles et de décorations réalisés en partie à partir de récupération (rue, dons, fin de braderie...). Nous partageons nos connaissances et nos expériences de l'upcycling afin de montrer qu'il est possible de s'équiper autrement en réduisant les déchets. Pour voir tous nos tutoriels : https://youcanscie.wordpress.com/riels : https://youcanscie.wordpress.com/)
• ITIL Dumps  + ([https://dumpsboss.com/certification-provi … [https://dumpsboss.com/certification-provider/itil/ '''In the ever-evolving field of IT service management, excelling in ITIL (Information Technology Infrastructure Library) certifications is essential for career advancement and organizational efficiency. For many professionals, mastering the ITIL framework can significantly enhance their job performance and open doors to new opportunities. However, achieving success in ITIL exams can be a daunting task without the right preparation tools. That's where DumpsBoss and its ITIL exam dumps come into play. In this comprehensive guide, we’ll explore how DumpsBoss ITIL dumps can transform your exam strategy and pave the way for your success.''']egy and pave the way for your success.'''])
• Arc-en-ciel avec Arduino  + (https://projects.raspberrypi.org/en/projec … https://projects.raspberrypi.org/en/projects/dancing-unicorn-rainbow https://www.instructables.com/id/How-to-Change-the-Resistance-of-a-Resistor-With-An/ https://www.instructables.com/lesson/Electricity-2/ https://www.instructables.com/id/Choosing-The-Resistor-To-Use-With-LEDs/ https://www.locoduino.org/spip.php?article47tps://www.locoduino.org/spip.php?article47)
• Guide d'utilisation d'un drone pour la cartographie  + (https://s3-us-west-2.amazonaws.com/notion-static/465051ab1209439cbda3ee9e9ee6e5f1/Notice_drone_VF_FR_web-3.pdf)
• Gabarit ruche 2  + (voir les tutos * Monter la hausse : [[Hausse de ruche]] * Mesurer et couper les cotés de la hausse : [[Gabarit cadre ruche]])
• Gabarit ruche 2  + (voir les tutos * Monter la hausse : [[Hausse de ruche]] * Mesurer et couper les cotés de la hausse : [[Gabarit cadre ruche]])
• Affordable Furniture Ideas That Don't Compromise on Style  + (Furnishing your home can be an exciting jo … Furnishing your home can be an exciting journey, but it often comes with a hefty price tag. The good news? Stylish and affordable furniture can go hand-in-hand—you just need to know where to look and how to choose smartly. Whether you're furnishing a new home, upgrading a few pieces, or simply refreshing your space, there are plenty of ways to find beautiful furniture without draining your wallet. Here are some affordable furniture ideas that won’t compromise on style, comfort, or quality. === '''1. Invest in Multi-functional Furniture''' === Multi-functional furniture is a game-changer, especially in small spaces. Think sofa beds, storage ottomans, nesting tables, or extendable dining tables. These pieces serve more than one purpose, making them both practical and budget-friendly. For instance, an '''L-shape sofa cum bed with storage''' is perfect for living rooms that need to double up as guest rooms. It offers seating, sleeping space, and hidden storage—all in one chic design. Look for sleek, modern designs in neutral colors that can easily match various decor styles. Choosing multi-functional furniture helps you save money by reducing the number of pieces you need while maximizing space and utility. === '''2. Explore Budget-Friendly Materials''' === High-end furniture is often made from premium materials like solid wood, leather, or marble—but these materials can be costly. Thankfully, there are more affordable alternatives that look just as stylish. For example: * '''Engineered wood or MDF (Medium Density Fiberboard)''' often mimics the look of real wood at a lower cost. * '''Laminated or veneer finishes''' offer a polished appearance without the weight and expense of solid wood. * '''Faux leather or fabric upholstery''' can provide a plush, elegant look for less. Today’s manufacturing techniques make these materials durable and attractive, so you don’t have to sacrifice aesthetics to stay within budget. === '''3. Go Minimal with Design''' === Minimalism is not just a design trend—it’s also a great strategy for saving money. Choosing furniture with clean lines, simple shapes, and functional designs often costs less than elaborate or ornate pieces. Minimalist furniture can fit into almost any decor scheme, from modern to bohemian, making it a smart and timeless choice. For example, a sleek dining table with straight wooden legs and a plain top can be styled up with accessories and still cost a fraction of an intricately carved one. This design approach also tends to age better, as it doesn’t rely heavily on fleeting trends. === '''4. DIY and Upcycle''' === A little creativity can go a long way. If you enjoy hands-on projects, consider upcycling old furniture or building your own pieces. A fresh coat of paint, new upholstery, or replacement handles can completely transform outdated furniture into a modern showpiece. Visit flea markets, garage sales, or online marketplaces for second-hand finds with solid bones. With a bit of sanding, staining, or painting, that worn-out table or chair can become a stunning focal point in your home—without costing a fortune. === '''5. Flat-Pack and Ready-to-Assemble Options''' === Flat-pack furniture, commonly available through modern retailers, is often significantly more affordable than pre-assembled pieces. These options are designed for easy transport and self-assembly, which helps lower manufacturing and shipping costs. Many stylish furniture brands now offer flat-pack pieces with beautiful finishes and modern designs. You get the satisfaction of building it yourself (often with easy-to-follow instructions) while enjoying a great price point. === '''6. Shop During Sales and Clearance Events''' === Timing can make a big difference when you're shopping for furniture. Major sales events like end-of-season clearances, holiday promotions, or festive discounts offer fantastic deals on stylish pieces. Keep an eye out for online furniture stores that offer flash sales or bundle discounts. Some retailers also offer clearance sections year-round, where you can snag display models or last-season designs at a steep discount. These pieces are typically in excellent condition and can add charm and character to your home for less. === '''7. Mix High and Low''' === You don’t have to furnish every room with high-end items to make your space look stylish. One clever approach is to mix high and low-cost items for a balanced look. For example, pair a luxurious, well-made sofa with an affordable coffee table or use budget-friendly shelving around a more expensive statement piece. This method not only helps you stick to your budget but also gives your space a curated, designer-inspired feel. Think of it like fashion—mixing a designer handbag with a budget outfit can still create a stunning look. === '''8. Use Rugs, Pillows, and Decor to Elevate the Look''' === Sometimes, the furniture itself doesn’t have to do all the heavy lifting. Affordable base pieces like a simple sofa or bed frame can be elevated with stylish accessories. Add textured cushions, colorful throws, trendy rugs, or bold wall art to create a cozy and visually appealing atmosphere. These small additions are relatively inexpensive and allow you to switch things up seasonally or as trends change, without committing to costly furniture replacements. === '''9. Opt for Modular Furniture''' === Modular furniture is not only practical but also affordable in the long run. With pieces that can be rearranged or added onto, you can build your furniture setup gradually according to your budget and space. Whether it's a modular wardrobe, sofa, or shelving unit, you gain flexibility and control over your layout. This is particularly useful in growing households or changing spaces, as it saves you from having to buy entirely new pieces each time your needs evolve. === '''10. Choose Trusted Affordable Brands''' === Some brands specialize in offering budget-friendly furniture without compromising on aesthetics or quality. Look for those that offer a wide variety of styles, good customer reviews, and transparent pricing. A trusted brand ensures that even affordable furniture lasts longer and looks better. One such brand you can consider is '''Wooden Street''', which offers a range of affordable yet stylish furniture options, from beds and sofas to dining tables and storage solutions. Their focus on design and affordability makes it easier for homeowners to find something beautiful without overspending. === '''Final Thoughts''' === Creating a stylish home doesn’t have to be a luxury reserved for big budgets. With a thoughtful approach, a bit of creativity, and smart shopping strategies, you can furnish your space beautifully without breaking the bank. From multi-functional furniture and budget materials to upcycling and mixing styles, there are countless ways to make affordable [https://www.woodenstreet.com furniture] work for you. So, whether you’re revamping a single room or starting from scratch, remember: style is not about how much you spend—it’s about how you bring everything together.s about how you bring everything together.)
• Discover True Relaxation at a Massage Center in Johar Town Lahore  + (In the bustling city of Lahore, where life … In the bustling city of Lahore, where life moves fast and stress builds up easily, finding time for relaxation and self-care is not just a luxury — it’s a necessity. If you’re someone who has been feeling mentally drained or physically exhausted, a visit to a '''massage center in Johar Town Lahore''' could be just what you need. Whether you're seeking pain relief, stress reduction, or a luxury wellness experience, the '''spa massage centers in Johar Town Lahore''' are redefining the way Lahoris unwind. This article offers a deep dive into what makes '''massage centers in Lahore Johar Town''' so popular, what services to expect, and how they compare to other top locations like '''massage centers in DHA Phase 5 Lahore''' and '''massage centers in DHA Phase 6 Lahore'''. == The Rise of Wellness Culture in Lahore == In recent years, Lahore has seen a noticeable shift towards health and wellness, with increasing numbers of people looking for holistic ways to manage their well-being. Alongside gyms and yoga studios, '''massage centers''' have emerged as essential spaces for physical recovery and emotional relaxation. From corporate professionals and athletes to homemakers and senior citizens, everyone is now embracing massage therapy. The growing demand has led to the establishment of high-end '''Lahore massage centers''' offering professional, hygienic, and therapeutic services tailored to individual needs. == Why Choose a Massage Center in Johar Town Lahore? == '''Johar Town''' has quickly become one of Lahore’s most thriving residential and commercial areas. With its blend of upscale amenities, malls, schools, hospitals, and cafes, it’s also home to some of the city’s best wellness spots. Here’s why many people prefer visiting a '''massage center in Johar Town Lahore''': === 1. '''Accessibility and Convenience''' === Johar Town’s central location makes it easily accessible from various parts of Lahore, including Model Town, Faisal Town, and Wapda Town. Whether you live nearby or are passing through, reaching a '''spa massage center in Johar Town Lahore''' is stress-free. === 2. '''Wide Range of Services''' === Most '''massage centers in Lahore Johar Town''' offer a comprehensive list of therapies, including: * Swedish Massage * Deep Tissue Massage * Thai Massage * Aromatherapy * Hot Stone Therapy * Reflexology * Full-body relaxation massage These services are designed to target everything from muscle fatigue to mental stress. === 3. '''Qualified Therapists''' === The best '''massage centers in Johar Town''' employ certified therapists trained in various techniques. This ensures that each session is safe, effective, and customized to your needs. === 4. '''Ambiance & Hygiene''' === A top-rated '''spa massage center in Johar Town Lahore''' prioritizes cleanliness and ambiance. With soothing music, aromatic oils, and tranquil lighting, these centers create an oasis of calm right in the heart of the city. == How It Compares: DHA Phase 5 vs. DHA Phase 6 Massage Centers == While '''massage centers in Johar Town Lahore''' have gained popularity, areas like DHA remain strong contenders in the wellness space. If you're trying to decide between locations, here’s how they compare: === Massage Center in DHA Phase 5 Lahore: === * Known for luxury spas and exclusive wellness clubs * Popular among executives and expats * High-end pricing, but with premium service quality * Focus on modern techniques, including sports massage and hydrotherapy === Massage Center in DHA Phase 6 Lahore: === * Offers more boutique-style massage centers * Ideal for personalized treatments and intimate settings * Often features new and innovative wellness therapies * Less crowded than DHA Phase 5, offering a more private experience === Massage Center in Johar Town Lahore: === * Best mix of affordability and quality * Large selection of massage styles * Family-friendly and women-friendly options * Great for regular visitors due to accessibility and pricing Whether you’re closer to DHA or Johar Town, it’s good to explore a few centers before making one your go-to '''Lahore massage center'''. == What to Expect During Your First Visit to a Spa Massage Center in Johar Town Lahore == If you’ve never been to a '''spa massage center in Johar Town Lahore''', here’s what a typical visit might look like: === Step 1: Consultation === Before the session begins, you’ll usually have a short consultation. The therapist may ask about your medical history, pain points, stress levels, or massage preferences. === Step 2: Choosing Your Service === You can choose from a menu of massages. If unsure, the therapist can guide you toward the most suitable option. Whether you want a soft, calming experience or deep muscle work, there’s something for everyone. === Step 3: The Massage === Once the session starts, you’re led into a serene room where the massage begins. Expect calming scents, soft linens, and tranquil music. === Step 4: Aftercare === After your session, you might be offered herbal tea or water. The therapist may also share tips on stretching or follow-up treatments. == The Health Benefits of Massage Therapy == A visit to a '''massage center in DHA Phase 6 Lahore''' or '''Johar Town''' isn’t just a luxury — it’s a health decision. Regular massages offer multiple benefits: * '''Improves Blood Circulation''' * '''Reduces Muscle Tension''' * '''Boosts Immunity''' * '''Enhances Sleep Quality''' * '''Relieves Headaches''' * '''Reduces Anxiety and Depression''' * '''Improves Posture''' It’s no surprise that top '''massage centers in Lahore Johar Town''' are now frequented by everyone from students to business professionals. == Recommended Massage Centers in Johar Town Lahore == While we can’t promote specific businesses, here are a few tips for choosing a reliable '''massage center in Johar Town Lahore''': === 1. '''Check Reviews''' === Look for reviews on Google or local directories to see what others are saying. === 2. '''Verify Licenses''' === Make sure the therapists are certified or trained. === 3. '''Visit Before Booking''' === If possible, visit the location to assess cleanliness and ambiance. === 4. '''Ask About Packages''' === Many '''massage centers in Lahore Johar Town''' offer membership deals or loyalty packages. These can be cost-effective if you plan to visit regularly. == Who Should Visit a Massage Center? == Massage therapy is suitable for almost everyone, but especially for: * '''Working Professionals''': To combat stress and screen-time fatigue * '''Athletes and Fitness Enthusiasts''': To aid muscle recovery * '''Elderly Individuals''': To improve joint mobility * '''Students''': To relieve exam stress and tension * '''New Mothers''': Postnatal massage is known for its recovery benefits The inclusive approach of most '''spa massage centers in Johar Town Lahore''' ensures a safe and welcoming space for all. == FAQs About Lahore Massage Centers == '''Q1: Are massage centers in Lahore safe for women?''' Yes, especially in areas like DHA and Johar Town, many centers are women-only or offer female therapists for female clients. '''Q2: Do I need an appointment?''' It’s best to book in advance, especially for weekends and evenings. '''Q3: What’s the cost of a massage in Johar Town?''' Prices can range from PKR 2,000 to PKR 8,000 depending on the type and duration. '''Q4: Can I request a specific therapist?''' Yes, most reputable '''Lahore massage centers''' allow you to choose or request a preferred therapist. == Final Thoughts: Your Oasis Awaits == Whether you’re in search of deep relaxation or seeking relief from pain, visiting a '''massage center in Johar Town Lahore''' is a step toward better health and well-being. With a growing number of high-quality wellness spaces, competitive pricing, and experienced therapists, Johar Town has become one of the best places in Lahore for rejuvenating body and soul. For those who live closer to DHA, excellent options are available at both '''massage centers in DHA Phase 5 Lahore''' and '''massage centers in DHA Phase 6 Lahore''', offering premium services and personalized care. But for a perfect blend of accessibility, affordability, and variety, a visit to a '''spa massage center in Johar Town Lahore''' may just be the best decision you make for yourself this month. '''Keywords used throughout the article''': * [https://lahorebestsaloon.com/massage-center-dha-phase-5/ massage center in DHA phase 5 Lahore] * [https://lahorebestsaloon.com/massage-center-in-johar-town-lahore/ massage center in Johar Town Lahore] * [https://lahorebestsaloon.com/ massage center in DHA phase 6 Lahore] * [https://lahorebestsaloon.com/massage-center-in-johar-town-lahore/ massage center Lahore Johar Town] * [https://lahorebestsaloon.com/massage-center-in-johar-town-lahore/ spa massage center in Johar Town Lahore] * [https://lahorebestsaloon.com/ Lahore Massage Center]//lahorebestsaloon.com/ Lahore Massage Center])
• Mastering Cricut Templates: The Ultimate Guide to Custom Cricut Designs and Patterns  + (The rise of crafting technology has brough … The rise of crafting technology has brought with it a revolution in DIY projects, and nothing showcases this better than the Cricut machine. Whether you're a beginner testing the waters or a seasoned crafter turning your passion into profit, the power of '''Cricut templates''' and '''custom Cricut designs''' can completely transform how you approach your creative process. From personalized gifts to home décor and custom apparel, Cricut opens doors to endless possibilities. In this comprehensive guide, we’ll explore the world of '''Cricut machine designs''', how to use and create '''designs for Cricut machines''', and the value of mastering '''Cricut patterns''' to unleash your creativity. == What Are Cricut Templates? == '''Cricut templates''' are digital design blueprints used with Cricut cutting machines to cut, score, draw, or engrave on a wide range of materials. These templates define the lines and shapes that your Cricut machine follows, whether you're creating intricate vinyl decals or cutting out fabric patterns. Cricut Design Space, the software that powers Cricut machines, offers a wide variety of built-in templates for different projects. These include pre-sized outlines for things like T-shirts, cards, mugs, and bags. But the real power lies in going beyond these presets to explore or create your own '''custom Cricut designs'''. == Why Templates Matter in Cricut Crafting == Templates simplify the design process. Whether you're creating a logo to iron onto a shirt or building a layered paper card, a template ensures consistency, accuracy, and speed. Especially for business-minded crafters, using reusable '''Cricut patterns''' helps scale up production without sacrificing quality. === Benefits of Using Cricut Templates: === * '''Time-saving''': Skip measuring every time. * '''Consistency''': Reproduce identical pieces in bulk. * '''Creativity Boost''': Build upon existing templates to make unique items. * '''Customization''': Modify templates for personalization and branding. == Types of Cricut Templates and Designs == Before diving into creation, it’s helpful to understand the types of '''Cricut machine designs''' you can work with: === 1. '''Pre-Made Templates''' === These are ready-to-use templates in Design Space or third-party marketplaces like Etsy or Creative Fabrica. They're perfect for beginners or those on tight deadlines. === 2. '''Editable SVG Files''' === SVG (Scalable Vector Graphics) files are the most commonly used format for '''designs for Cricut machines'''. You can scale them without losing quality and tweak them in design software. === 3. '''Layered Designs''' === Popular in paper crafting, layered '''Cricut patterns''' involve multiple cuts stacked to create 3D effects or shadowboxes. === 4. '''Custom Templates''' === These are user-created designs tailored to specific needs. Making a '''Cricut custom design''' allows full creative control — ideal for brands or niche markets. == Creating Custom Cricut Designs from Scratch == Creating your own '''custom Cricut designs''' doesn’t have to be intimidating. Here's a step-by-step process for beginners: === Step 1: Choose Your Design Software === While Cricut Design Space is adequate for basic creations, many advanced crafters prefer tools like: * Adobe Illustrator * Inkscape (free) * Affinity Designer These programs allow you to create complex SVG files which can then be imported into Design Space. === Step 2: Start with a Sketch or Concept === Plan your design on paper or digitally. Think about the material (vinyl, cardstock, wood, etc.) and the final use (T-shirt, decal, sign). === Step 3: Build Your Design === Using your software, draw shapes, add text, and align elements. Keep layering in mind if you're planning a multi-color or multi-material design. === Step 4: Export as SVG === Once your design is ready, export it as an SVG file to maintain scalability and compatibility. === Step 5: Upload to Design Space === Open Cricut Design Space and upload your SVG file. Arrange it on the canvas, assign cut types, and you’re ready to go. == Top Ideas for Custom Cricut Templates == Looking for inspiration? Here are some popular and trending uses for '''custom Cricut designs''': * '''Personalized Gifts''': Monogrammed mugs, name plaques, baby onesies. * '''Wedding Décor''': Custom signs, table numbers, invitations. * '''Small Business Branding''': Logo stickers, product packaging, T-shirt branding. * '''Home Decor''': Wall decals, doormats, seasonal signs. * '''Organizational Labels''': Kitchen jars, storage boxes, planners. With a strong foundation in '''designs for Cricut machines''', you can turn your hobbies into practical items or even profit. == Cricut Patterns: Repeating Design Magic == Patterns in Cricut crafting refer to repeating or structured visuals that can be used for backgrounds, fabrics, or detailed artwork. Think polka dots, chevrons, florals, or mandalas. Cricut Design Space allows you to fill shapes with patterns or use printable patterns for iron-on and infusible ink projects. === How to Use Cricut Patterns: === # Choose or upload a pattern file. # Apply it to a shape or text. # Print and cut, or use sublimation or heat transfer for fabric-based designs. Whether you’re making gift wrap or a patterned tote bag, mastering '''Cricut patterns''' can take your creations from simple to stunning. == Selling Your Cricut Templates and Designs == If you’ve created some amazing '''custom Cricut designs''', you might consider selling them. There’s a thriving marketplace for unique SVG files and Cricut-friendly assets. === Platforms to Sell Cricut Templates: === * '''Etsy''': Best for handmade, personalized designs. * '''Creative Market''': Geared toward professional designers. * '''Design Bundles''': Focused on the crafting niche. * '''Your own website''': Allows you to build your brand and keep full profit margins. Be sure your designs are original or properly licensed. A successful portfolio of '''Cricut custom designs''' can become a full-fledged digital product business. == Tips for Better Cricut Machine Designs == To make your '''Cricut machine designs''' stand out, follow these best practices: * '''Use clean, simple shapes''': Overly complex designs may cut poorly. * '''Test your cuts''': Always do a test run on scrap material. * '''Group and attach layers''': Keep elements aligned. * '''Pay attention to cut lines''': Ensure there are no overlapping paths. * '''Save your templates''': Build a library of reusable designs. == Organizing Your Cricut Files and Projects == As you build your collection of '''designs for Cricut machines''', it’s easy to get overwhelmed. Here's how to stay organized: * '''Use folders''' on your computer for categories (e.g., holidays, business, personal). * '''Label designs''' clearly with version numbers or client names. * '''Back up''' your files on cloud storage like Google Drive or Dropbox. * '''Create a visual library''' with thumbnails for quick reference. Efficient organization means less time searching and more time crafting. == The Future of Cricut Crafting == With regular updates to Cricut software and hardware, the future of crafting is becoming increasingly digital. Advanced tools like Cricut Maker 3 and Joy Xtra support smart materials, faster cutting speeds, and even more precision. As AI-assisted design tools emerge, expect easier ways to generate '''Cricut templates''', personalize designs, and preview them in real-life settings. But even with technological advancements, the essence of crafting remains the same — it’s about creativity, passion, and the joy of making. == Final Thoughts == Mastering '''Cricut templates''' is about more than just learning how to use a machine — it’s about unlocking your creative potential. Whether you're crafting for fun or business, understanding how to create and use '''custom Cricut designs''', explore detailed '''Cricut patterns''', and organize your '''Cricut machine designs''' gives you the edge to stand out in a growing community of makers. So, dive into your next project with confidence, and let your '''designs for Cricut machines''' tell a story. With practice, you'll not only build a portfolio of stunning creations but also develop a skill set that’s as versatile as the Cricut machine itself. '''Keywords Used in Article''': * [https://www.designsforcricut.com/ cricut templates] * [https://www.designsforcricut.com/ custom cricut designs] * [https://www.designsforcricut.com/ cricut machine designs] * [https://www.designsforcricut.com/ designs for cricut machine] * [https://www.designsforcricut.com/ cricut patterns] * [https://www.designsforcricut.com/ cricut custom design] Let me know if you’d like this formatted for blog SEO, a printable PDF, or broken down into social media posts!F, or broken down into social media posts!)
• Tips to Make Your Bedroom Design Beautiful and Cozy  + (Your bedroom is more than just a place to … Your bedroom is more than just a place to sleep — it’s your personal sanctuary, a space where you unwind, relax, and escape the chaos of daily life. A beautifully designed and cozy bedroom doesn’t necessarily require a massive budget or a complete overhaul. With the right tips, smart design decisions, and thoughtful elements, you can transform your bedroom into a warm, inviting, and aesthetically pleasing retreat. Here are some practical and creative tips to help you design a bedroom that is both beautiful and cozy: == '''1. Choose a Warm and Soothing Color Palette''' == The color palette you choose sets the tone for your entire bedroom. For a cozy and serene atmosphere, opt for soft neutrals, pastels, or warm earthy tones like beige, taupe, blush, or sage green. These colors promote relaxation and give the room a calming vibe. If you prefer deeper hues, consider shades like navy, olive, or charcoal, but balance them with lighter accents to avoid making the space feel too enclosed. '''Tip:''' Use a combination of tones—lighter shades for walls and ceilings, with darker accents in furnishings or textiles—for depth and balance. == '''2. Invest in High-Quality Bedding''' == One of the quickest ways to make your bedroom cozy is by upgrading your bedding. Soft, breathable, and layered bedding creates a hotel-like feel. Look for high-thread-count cotton or linen sheets, a plush comforter or duvet, and plenty of pillows in various sizes. '''Layering''' is key: start with fitted sheets, add a top sheet, a blanket, and a cozy duvet or quilt. A few throw pillows and a soft throw blanket at the end of the bed add both comfort and style. == '''3. Incorporate Natural Elements''' == Bringing elements of nature into your bedroom enhances its coziness and adds a calming ambiance. This could be as simple as adding houseplants, using wooden furniture, or incorporating natural fabrics like cotton, jute, or wool. Wooden furniture in particular adds warmth and character to a room. A wooden headboard, nightstand, or dresser can serve as a statement piece that grounds the space and connects it to nature. == '''4. Focus on Lighting''' == Lighting can make or break the mood in your bedroom. Avoid harsh, overhead lights. Instead, create layers of lighting with a combination of sources—ambient, task, and accent lighting. * '''Ambient lighting''': General lighting, like ceiling fixtures, should be soft and warm. * '''Task lighting''': Reading lamps on nightstands or a desk lamp in a corner can be both functional and stylish. * '''Accent lighting''': Fairy lights, wall sconces, or candles can add a cozy glow that enhances the atmosphere. '''Tip:''' Use dimmable bulbs or smart lights so you can adjust the brightness to match your mood or the time of day. == '''5. Use Soft Textures and Fabrics''' == The key to coziness is texture. Incorporate soft, touchable fabrics into your design through rugs, curtains, cushions, and throws. Mix and match materials like velvet, faux fur, knits, and cotton to create visual interest and a tactile experience. A large area rug under the bed adds warmth to your feet when you get up and helps define the space. Floor-length curtains can make the room feel taller and more luxurious while also helping block out light for better sleep. == '''6. Keep It Clutter-Free''' == A cozy bedroom is also a tidy one. Clutter can quickly disrupt the peaceful feeling of your space. Adopt minimalism when it comes to decor and keep only what you truly need or love. Use smart storage solutions to keep things organized. Under-bed storage bins, baskets, storage ottomans, and multipurpose furniture like beds with built-in drawers can help you stay organized without sacrificing style. == '''7. Add Personal Touches''' == Your bedroom should reflect your personality. Add meaningful artwork, framed photos, a favorite quote, or souvenirs from your travels. These personal touches not only make the space more inviting but also tell your unique story. Consider creating a small gallery wall or dedicating a shelf to display items that bring you joy. Even a single piece of art or a sentimental item can add emotional warmth to the room. == '''8. Create a Reading or Relaxation Nook''' == If space allows, carve out a small corner for reading, meditation, or simply relaxing. A comfy chair, a floor lamp, and a side table are all you need to create a mini retreat within your bedroom. Add a small bookshelf or a basket with your favorite reads to complete the look. This little zone can be your personal haven for unwinding after a long day or enjoying quiet moments during the weekend. == '''9. Scent Matters''' == Scent has a powerful effect on mood and relaxation. Introduce calming fragrances like lavender, chamomile, or sandalwood into your bedroom. This can be done through scented candles, essential oil diffusers, or incense. Not only will this elevate the cozy ambiance, but it also helps promote better sleep and stress relief. == '''10. Maintain a Balanced Layout''' == Furniture placement plays a huge role in how your bedroom feels. Avoid overcrowding the space or placing large pieces that obstruct movement. Try to maintain a balance between form and function. Place your bed in a central position, ideally against a wall, with enough space on either side for nightstands. Keep the traffic flow smooth and ensure that you can easily access your storage areas. '''Tip:''' Symmetry in design—like matching lamps or balanced artwork—adds a sense of calm and order to the space. == '''Final Thoughts''' == Creating a beautiful and cozy [https://www.woodenstreet.com/design-ideas/bedroom-design '''Bedroom Interior Design'''] isn’t about following rigid design rules—it’s about curating a space that feels right for ''you''. Whether through soft textures, soothing colors, or meaningful decor, every detail should contribute to a feeling of comfort, safety, and style. Take it step by step—start with your color palette and bedding, and gradually add layers of lighting, personal touches, and cozy elements. Before you know it, your bedroom will become your favorite place to be. For those looking to enhance their bedroom with high-quality, thoughtfully designed furniture and accessories, '''Wooden Street''' offers a wide range of options that blend beauty, functionality, and comfort seamlessly.t blend beauty, functionality, and comfort seamlessly.)
• Marmite norvégienne  + (VISIONNER LA VIDEO TUTORIEL ICI : https:// … VISIONNER LA VIDEO TUTORIEL ICI : https://www.youtube.com/watch?v=qaJM42POco0 L’équipe du Low-Tech Lab vous invite à consulter sa Biblilowtech sur le site internet : lowtechlab.org/biblilowtech/ Vous pouvez également contacter l’équipe à hello@lowtechlab.org Merci ! '''Participez à la veille technique, partagez vos liens intéressants dans [http://lowtechlab.wikifab.org/index.php/Discussion:Marmite_norv%C3%A9gienne l'espace de discussion] ou ajoutez les ici.''' [http://www.lowtechmagazine.com/2014/07/cooking-pot-insulation-key-to-sustainable-cooking.html If We Insulate Our Houses, Why Not Our Cooking Pots?] : Article du Low-tech Mag sur les techniques alternatives de cuisson. On retrouve quelques chiffres sur les performances énergétiques de la cuisson sans feu. [http://www.cfaitmaison.com/sante/marmite-norvegienne.html Marmite norvégienne, caisse à cuire et cuiseur thermos] : Page qui résume bien le fonctionnement de la marmite norvégienne et qui donne des pistes pour en fabriquer une très facilement et sans bricoler. [https://www.facebook.com/lowtechlab/posts/852761561523999 Low-tech Lab : La Marmite Norvégienne] : Expérience menée par le LTL sur la marmite norvégienne. Dans les commentaires de la photo on trouve beaucoup de pistes amenées par la communauté du LTL. [http://www.rootsimple.com/2011/12/hay-boxes-or-fireless-cookers/ Hay boxes or Fireless Cookers] [http://www.treehugger.com/sustainable-product-design/wonderbag-electricity-free-slow-cooker.html The Wonderbag] : Une produit sympa disponible sur le marché.ne produit sympa disponible sur le marché.)

• Filet à phytoplancton  + (Contributeurs : Explore, Cap vers la Natur … Contributeurs : Explore, Cap vers la Nature, MNHN Concarneau, Xavier Coadic, Astrolabe Expéditions '''Voir aussi :''' * Article [https://www.notion.so/Phytoplancton-Objectifs-et-protocoles-9eb8eebc502d46ba9d18faec0b758c63 sur notion.so : Pourquoi prélever le phytoplancton ?]so : Pourquoi prélever le phytoplancton ?])

• Fabrication d'un drône  + ( # https://diydrones.com/profiles/blogs/ar … # https://diydrones.com/profiles/blogs/arduimu-quadcopter-part-iii : un exemple de drone avec des capteurs de distance. La vidéo dans le parking montre bien un exemple de ce qu'on veut réaliser # http://www.electronoobs.com/eng_robotica_tut6_2.php : on va pas y couper, il va falloir se plonger dans les boucles PID, pour corriger les consignes (inclinaison, hauteur) avec les mesures effectives. # https://www.firediy.fr/article/calibrer-le-capteur-mpu6050-avec-un-arduino-drone-ch-5 : utilisation du gyroscope # https://www.firediy.fr/article/utiliser-sa-radiocommande-avec-un-arduino-drone-ch-6 : code Arduino : attachInterrupt et registres d'interruption # http://mitappsinventor.blogspot.com/2015/05/rgb-slider-color-selector-rgb-led.html appli Android pour controler le drône : un bon point de départ avec cet exemple de l'utilisation d'un slider pour contrôler une LED. # https://www.carnetdumaker.net/articles/mesurer-une-distance-avec-un-capteur-ultrason-hc-sr04-et-une-carte-arduino-genuino/ débuter avec les capteurs de distance ultrasons ter avec les capteurs de distance ultrasons )
• Flipper  + ('''''Matériaux :''''' -carton -file de … '''''Matériaux :''''' -carton -file de fer -petit morceau de bois -élastiques '''''Mesures :''''' L=longueur l= largeur !) Laissez un coter plat et une pente que d’un coter -1 : L : 40 l1 : 19- l2 14 ! -2 : L : 40 l1 : 19- l2 14 ! -3 : L : 30 l : 19 -4 : L : 30 l : 13 (Ouverture passage de bille moitié L=6 l=4) -5 : L : 40 l1 : 13.5 l2 : 8.5 (Coupez cubes 3x3 sur la pente) ! -6 :  L : 40 l1 : 13.5 l2 : 8.5 (Coupez cubes 3x3 sur la pente) ! -7 : L : 40 l :4 ! -8 : L : 40 l :4 ! -9 : L :40 l : 28 -10 : x2 petit bout de carton *voir 1 :32 -11 : x2 bande de carton l 28 * voir 1 :32 -12 : L 40 l 30 -13 : x6 L : 9 l max :3 *voir 2 :13 ! -14 : x6 L :8 l : 3 -15 : L : 14 l :3   Pour vous aider consulter la vidéo ci dessous [https://www.youtube.com/watch?v=wNZxG8QxxrI 製作瓦楞紙彈珠台 DIY Cardboard Pinball M achine] -16 : Petit carrer *voir 4 :50 -17 : *voir 5 :00 -18 : *voir 5 :44 -19 : L : 30 *voir 5 : 48 -20 : dernière pièce utile 6 : 46 '''''Outils_:''''' -cutteur -Règle -ciseaux -crayon de bois - colle -équerre -pistolet a colle'' -cutteur -Règle -ciseaux -crayon de bois - colle -équerre -pistolet a colle)
• Four solaire - Type boîte  + ('''CONSEIL D’UTILISATION / REMARQUE''' : … '''CONSEIL D’UTILISATION / REMARQUE''' : *Utiliser des récipients de couleur foncée, ou peints en noir. *Pour capter le maximum de rayonnement, orienter correctement le four solaire par rapport au soleil. Il suffit de le réorienter une fois par heure de manière à avoir l’ombre du four directement derrière lui. *Pour perdre le moins de chaleur possible, éviter de trop ouvrir le four pendant la cuisson ! Le mieux est encore de mettre tous les ingrédients nécessaires dès le début. '''REFERENCES''' : *Ce four solaire a été réalisé par David Mercereau, n'hésitez pas à aller voir de plus près sa yourte et ses low-tech [http://david.mercereau.info/ sur son blog]. *Pour avoir plus d’informations sur les fours solaires, leur utilisation, comment les orienter et les recettes solaires, l’équipe du Low-Tech Lab vous invite à consulter la rubrique four solaire dans sa [https://www.pearltrees.com/s/file/preview/129215780/plansfr.pdf Biblilowthèque]. *[http://www.vaucanson.org/php5/Accueil/attachments/article/742/Four_solaire_principe.pdf Comment récupérer un maximum d’énergie solaire ?] *Il est également possible de faire des stages auprès de l’association [http://www.boliviainti-sudsoleil.org/spip.php?article596 Bolivia Inti] ou encore d’acheter directement des fours solaires auprès de ID Cook ou de Solarcooking. *N'hésitez pas à commenter, partager, et agrémenter le tutoriel d'informations utiles à son amélioration. d'informations utiles à son amélioration.)
• Heather Chadduck Hillegas' Redesign of the Nelson-Galt House in Colonial Williamsburg  + ('''Conclusion''' Heather Chadduck Hillega … '''Conclusion''' Heather Chadduck Hillegas’ redesign of the Nelson-Galt House is a masterclass in blending historical reverence with modern design. Through her thoughtful use of 18th-century-inspired products, bold decorative choices, and innovative solutions, Heather has transformed this historic home into a space that honors its past while providing comfort and style for the present. The project stands as a shining example of how historic preservation and modern living can coexist in harmony. [https://www.designsforcricut.com/blog/christmas-designs-for-cricut-ultimate-2024-guide Christmas Designs for Cricut] [https://www.designsforcricut.com/blog/explore-3d-flower-cutting-designs-your-guide-to-creative-crafting-with-cutting-machines 3D Flower Cutting Designs] [https://www.designsforcricut.com/blog/the-ultimate-guide-to-christmas-monogram-svg-for-cricut Christmas Monogram SVG for Cricut] [https://www.designsforcricut.com/blog/a-complete-guide-to-3d-fonts-for-cutting-machines 3D Fonts for Cutting Machines]
  ines 3D Fonts for Cutting Machines] <br/>)
• Torréfacteur de café à énergie solaire (pour concentrateur de Scheffler)  + ('''Merci aux contributeurs :''' * Florent … '''Merci aux contributeurs :''' * Florent Dupont pour : ** les stages de formation à la construction du concentrateur de Scheffler et autres technologies open source, qui ont permis à Damien le transfert de la technologie Scheffler et développé les compétences de François pour la réalisation du torréfacteur ** l'accueil à "l'atelier du soleil et du vent", structure qu'il a mise en place, où a été réalisé le torréfacteur présenté dans ce tutoriel * Manfred Amoureux : pour le contact établi entre le GRUPO PUCP et Damien, puis François * Damien Puigserver pour le transfert de technologie Scheffler au GRUPO PUCP * Miguel Hadzich pour son engagement de longue date à la tête du GRUPO PUCP et l'impulsion initiale puis le soutien au projet de torréfaction solaire. * Juan Pablo Perez Panduro pour: ** son implication et sa motivation dans ce projet --depuis la construction du premier Scheffler au Pérou !-- au service des personnes des zones rurales du Pérou, ** la modélisation en 3D du concentrateur de Scheffler et du torréfacteur solaire Compadre! * l'équipe du projet Intikallana (Juan Pablo Perez Panduro, Luis Miguel Hadzich, Sandra Vergara, Julien Delcol et François Veynandt) pour le développement du premier prototype de concentrateur solaire de café en 2012. * l'équipe du projet "Chocolate Solar" (Jorge Soria Navarro, Felix Escalante Delgado, Juan Pablo, François) pour la poursuite des travaux de torréfaction et les expérimentations avec le cacao. * l'équipe de la startup Compadre (Juan Pablo Perez Panduro, François Veynandt, Fiorella Belli, Jose Uechi, puis Felix Escalante Delgado...) pour la reconception du prototype de torréfacteur dans une version plus ergonomique en 2014-2015. La version présentée dans ce tutoriel en est une adaptation aux latitudes plus élevées (optimisée pour 45° +/-15°). La version utilisée au Pérou est valable pour des latitudes autour de l'équateur (conçu pour 13° +/-15°) * Donato pour son expertise dans le travail du métal et son engagement dans la construction des prototypes du torréfacteur, notamment en phase de développement. * l'université UTEC, Andrés Benavides et Gonzalo Villaran, pour leur accompagnement dans le développement de la startup Compadre. * Armenia Siladi pour : ** son soutien moral, son aide à la construction et à la rédaction du tutoriel du torréfacteur en France, ** la traduction du tutoriel en anglais ! * Johann, Arnaud, Armenia Siladi, Jean-Baptiste Brette, Jean Vincent, Florent Dupont pour leur aide ou leur conseils pour la construction du torréfacteur. * François Veynandt pour : ** l'adaptation des plans du torréfacteur à l'utilisation avec un concentrateur Scheffler en France, ** le financement du torréfacteur décrit dans ce tutoriel et la logistique des matériaux, ** la construction du torréfacteur et la rédaction du manuel. * Open Source Ecologie France pour son affinité avec le projet et son soutien à Compadre notamment par la présentation du projet et du café Compadre lors de la Fête d'OSE en janvier 2016. * Charles Morat pour son soutien au projet Compadre en France. * WikiFab pour la mise à disposition de cette plateforme de partage de connaissances sur les technologies open-source ! (°u°)s sur les technologies open-source ! (°u°))
• Torréfacteur de café à énergie solaire (pour concentrateur de Scheffler)  + ('''Merci aux contributeurs :''' * Florent … '''Merci aux contributeurs :''' * Florent Dupont pour : ** les stages de formation à la construction du concentrateur de Scheffler et autres technologies open source, qui ont permis à Damien le transfert de la technologie Scheffler et développé les compétences de François pour la réalisation du torréfacteur ** l'accueil à "l'atelier du soleil et du vent", structure qu'il a mise en place, où a été réalisé le torréfacteur présenté dans ce tutoriel * Manfred Amoureux : pour le contact établi entre le GRUPO PUCP et Damien, puis François * Damien Puigserver pour le transfert de technologie Scheffler au GRUPO PUCP * Miguel Hadzich pour son engagement de longue date à la tête du GRUPO PUCP et l'impulsion initiale puis le soutien au projet de torréfaction solaire. * Juan Pablo Perez Panduro pour: ** son implication et sa motivation dans ce projet --depuis la construction du premier Scheffler au Pérou !-- au service des personnes des zones rurales du Pérou, ** la modélisation en 3D du concentrateur de Scheffler et du torréfacteur solaire Compadre! * l'équipe du projet Intikallana (Juan Pablo Perez Panduro, Luis Miguel Hadzich, Sandra Vergara, Julien Delcol et François Veynandt) pour le développement du premier prototype de concentrateur solaire de café en 2012. * l'équipe du projet "Chocolate Solar" (Jorge Soria Navarro, Felix Escalante Delgado, Juan Pablo, François) pour la poursuite des travaux de torréfaction et les expérimentations avec le cacao. * l'équipe de la startup Compadre (Juan Pablo Perez Panduro, François Veynandt, Fiorella Belli, Jose Uechi, puis Felix Escalante Delgado...) pour la reconception du prototype de torréfacteur dans une version plus ergonomique en 2014-2015. La version présentée dans ce tutoriel en est une adaptation aux latitudes plus élevées (optimisée pour 45° +/-15°). La version utilisée au Pérou est valable pour des latitudes autour de l'équateur (conçu pour 13° +/-15°) * Donato pour son expertise dans le travail du métal et son engagement dans la construction des prototypes du torréfacteur, notamment en phase de développement. * l'université UTEC, Andrés Benavides et Gonzalo Villaran, pour leur accompagnement dans le développement de la startup Compadre. * Armenia Siladi pour : ** son soutien moral, son aide à la construction et à la rédaction du tutoriel du torréfacteur en France, ** la traduction du tutoriel en anglais ! * Johann, Arnaud, Armenia Siladi, Jean-Baptiste Brette, Jean Vincent, Florent Dupont pour leur aide ou leur conseils pour la construction du torréfacteur. * François Veynandt pour : ** l'adaptation des plans du torréfacteur à l'utilisation avec un concentrateur Scheffler en France, ** le financement du torréfacteur décrit dans ce tutoriel et la logistique des matériaux, ** la construction du torréfacteur et la rédaction du manuel. * Open Source Ecologie France pour son affinité avec le projet et son soutien à Compadre notamment par la présentation du projet et du café Compadre lors de la Fête d'OSE en janvier 2016. * Charles Morat pour son soutien au projet Compadre en France. * WikiFab pour la mise à disposition de cette plateforme de partage de connaissances sur les technologies open-source ! (°u°)s sur les technologies open-source ! (°u°))
• How to Play Spotify While Playing Roblox  + ('''Part 2: Why You Can't Play Spotify Whil … '''Part 2: Why You Can't Play Spotify While Playing Roblox''' While playing Spotify alongside Roblox is generally straightforward, there might be instances where you encounter difficulties. Common reasons include: Roblox Restrictions: Some Roblox games may have their own music or soundtracks, disabling external audio sources. Device Compatibility: Older devices or those with limited processing power may struggle to run both apps simultaneously. In-Game Audio Conflicts: Certain Roblox games automatically lower or mute external audio to prioritize in-game sounds. '''Part 3: How to Play Spotify While Playing Roblox Without Limits''' To overcome potential obstacles and ensure uninterrupted Spotify playback while playing Roblox, follow these tips: 1. Upload Spotify Music to Roblox for Listening: You can use [https://www.drmare.com/music-converter/ DRmare Spotify Music Converter] to download Spotify songs to Roblox-compatible audio files and then add them to Roblox to play Spotify music in the background while playing games on Roblox. 2. Check Game Settings: Look for audio settings within the Roblox game you are playing. Some games allow you to adjust the volume or mute in-game audio. 3. Use External Devices: Connect Bluetooth headphones or speakers to your device to manage audio output more effectively. 4. Explore Third-Party Apps: Consider using third-party apps that allow you to control Spotify playback without leaving the Roblox app, providing a smoother experience. 5. Upgrade Hardware: If you consistently face issues, upgrading your device's hardware, such as getting a more powerful computer or mobile device, can improve multitasking capabilities. By following these guidelines, you can elevate your gaming experience on Roblox by seamlessly integrating your favorite Spotify tunes. Enjoy the best of both worlds as you explore virtual realms while immersing yourself in a personalized soundtrack.ing yourself in a personalized soundtrack.)
• Création d'une éolienne  + ('''Quelques conseils :''' Le choix du mât … '''Quelques conseils :''' Le choix du mât de l’éolienne doit être mûrement réfléchi. Dans ce projet, il a été décidé de valoriser un matériau de récupération, à savoir une tige de bambou. Le diamètre d’ouverture du pied et de la nacelle devra être modifié selon celui du mât. '''Pour aller plus loin :''' L’énergie délivrée par le moteur permet d’allumer une LED. Pourquoi ne pas imaginer un circuit plus complexe ?ne pas imaginer un circuit plus complexe ?)
• Hausse de ruche à fenêtre  + ('''Voir aussi :''' Faire les cadres de la … '''Voir aussi :''' Faire les cadres de la ruches est laborieux, il vaut mieux les acheter, mais vous pouvez utiliser le tutoriel du [[Gabarit cadre ruche|gabarit de cadre de ruche]] pour découper la cire gaufrée aux dimensions et la coller sur le cadre de hausse.sions et la coller sur le cadre de hausse.)
• Hausse de ruche  + ('''Voir aussi :''' Faire les cadres de la … '''Voir aussi :''' Faire les cadres de la ruches est laborieux, il vaut mieux les acheter, mais vous pouvez utiliser le tutoriel du [[Gabarit cadre ruche|gabarit de cadre de ruche]] pour découper la cire gaufrée aux dimensions et la coller sur le cadre de hausse.sions et la coller sur le cadre de hausse.)
• Hausse de ruche  + ('''Voir aussi :''' Faire les cadres de la … '''Voir aussi :''' Faire les cadres de la ruches est laborieux, il vaut mieux les acheter, mais vous pouvez utiliser le tutoriel du [[Gabarit cadre ruche|gabarit de cadre de ruche]] pour découper la cire gaufrée aux dimensions et la coller sur le cadre de hausse.sions et la coller sur le cadre de hausse.)
• Ventilateur USB  + ('''Voir aussi :''' * Le tutoriel pour [[Fabrication : Ventilateur USB|fabriquer les pièces du ventilateur USB]] … '''Voir aussi :''' * Le tutoriel pour [[Fabrication : Ventilateur USB|fabriquer les pièces du ventilateur USB]] avec une découpeuse laser Je suis disponible pour répondre à des questions à l'adresse : tom[at]faire-savoir.me - site perso : [http://faire-savoir.me/2017/10/01/usb-ventilator/ Faire-Savoir.me]017/10/01/usb-ventilator/ Faire-Savoir.me])
• Ventilateur USB  + ('''Voir aussi :''' * Le tutoriel pour [[Fabrication : Ventilateur USB|fabriquer les pièces du ventilateur USB]] … '''Voir aussi :''' * Le tutoriel pour [[Fabrication : Ventilateur USB|fabriquer les pièces du ventilateur USB]] avec une découpeuse laser Je suis disponible pour répondre à des questions à l'adresse : tom[at]faire-savoir.me - site perso : [http://faire-savoir.me/2017/10/01/usb-ventilator/ Faire-Savoir.me]017/10/01/usb-ventilator/ Faire-Savoir.me])
• Gabarit cadre ruche  + ('''Voir aussi :''' * Tutoriel pour construire une [[hausse de ruche]])
• Gabarit cadre ruche  + ('''Voir aussi :''' * Tutoriel pour construire une [[hausse de ruche]])
• Le recyclo  + ('''Voir aussi :''' * [[Batterie Li-ion 36V 20A à partir de cellule 18650 de récupération]] * [[Recyclage des batteries Li-ion]])
• Le recyclo  + ('''Voir aussi :''' * [[Batterie Li-ion 36V 20A à partir de cellule 18650 de récupération]] * [[Recyclage des batteries Li-ion]])
• Pied de ruche  + ('''Voir aussi''' * [[Hausse de ruche|Tutoriel complet pour créer la hausse]] … '''Voir aussi''' * [[Hausse de ruche|Tutoriel complet pour créer la hausse]] * [[Gabarit ruche|Gabarit 1 pour découper la hausse]] * [[Gabarit ruche 2|Gabarit 2 pour l'assemblage]] * [[Gabarit cadre ruche|Gabarit-guide pour découper des feuilles de cire pour cadre de hausse]]Gabarit cadre ruche|Gabarit-guide pour découper des feuilles de cire pour cadre de hausse]])
• Pied de ruche  + ('''Voir aussi''' * [[Hausse de ruche|Tutoriel complet pour créer la hausse]] … '''Voir aussi''' * [[Hausse de ruche|Tutoriel complet pour créer la hausse]] * [[Gabarit ruche|Gabarit 1 pour découper la hausse]] * [[Gabarit ruche 2|Gabarit 2 pour l'assemblage]] * [[Gabarit cadre ruche|Gabarit-guide pour découper des feuilles de cire pour cadre de hausse]]Gabarit cadre ruche|Gabarit-guide pour découper des feuilles de cire pour cadre de hausse]])
• Quizmaster avec mBlock et Arduino  + ('''Voir aussi''' * [[Le crayon laser]] * [[Quiz avec mBlock]] * [[Simon game with mBlock and Arduino]])
• Quizmaster avec mBlock et Arduino  + ('''Voir aussi''' * [[Le crayon laser]] * [[Quiz avec mBlock]] * [[Simon game with mBlock and Arduino]])
• Lombricomposteur en bois de chêne  + ('''Voir aussi''' * la Boîte à Terre : [htt … '''Voir aussi''' * la Boîte à Terre : [http://boutique.laboiteaterre.fr/home/1-boite-a-terre-2-plateaux.html boutique.laboiteaterre.fr/home/1-boite-a-terre-2-plateaux.html] * vidéo d'un autre lombricomposteur en bois : [https://www.youtube.com/watch?v=-3Qa8XYKfFA youtube.com/watch?v=-3Qa8XYKfFA]Qa8XYKfFA youtube.com/watch?v=-3Qa8XYKfFA])
• Lombricomposteur en bois de chêne  + ('''Voir aussi''' * la Boîte à Terre : [htt … '''Voir aussi''' * la Boîte à Terre : [http://boutique.laboiteaterre.fr/home/1-boite-a-terre-2-plateaux.html boutique.laboiteaterre.fr/home/1-boite-a-terre-2-plateaux.html] * vidéo d'un autre lombricomposteur en bois : [https://www.youtube.com/watch?v=-3Qa8XYKfFA youtube.com/watch?v=-3Qa8XYKfFA]Qa8XYKfFA youtube.com/watch?v=-3Qa8XYKfFA])
• Quiz avec mBlock  + ('''Voir aussi''' * Le tutoriel [[Quizmaster avec mBlock et Arduino]])
• Quiz avec mBlock  + ('''Voir aussi''' * Le tutoriel [[Quizmaster avec mBlock et Arduino]])
• Gabarit ruche  + ('''Voir aussi''' : * [[Hausse de ruche|Tutoriel complet pour créer la hausse]] … '''Voir aussi''' : * [[Hausse de ruche|Tutoriel complet pour créer la hausse]] * [[Gabarit ruche 2|Gabarit 2 nécessaire pour l'assemblage ou tracer la longueur des côtés]] * [[Gabarit cadre ruche|Gabarit-guide pour découper des feuilles de cire pour cadre de hausse]]barit cadre ruche|Gabarit-guide pour découper des feuilles de cire pour cadre de hausse]])
• Gabarit ruche  + ('''Voir aussi''' : * [[Hausse de ruche|Tutoriel complet pour créer la hausse]] … '''Voir aussi''' : * [[Hausse de ruche|Tutoriel complet pour créer la hausse]] * [[Gabarit ruche 2|Gabarit 2 nécessaire pour l'assemblage ou tracer la longueur des côtés]] * [[Gabarit cadre ruche|Gabarit-guide pour découper des feuilles de cire pour cadre de hausse]]barit cadre ruche|Gabarit-guide pour découper des feuilles de cire pour cadre de hausse]])
• Can Metal Detector Detect Gold  + ( * '''WikiFab Article on Metal Detectors:' … * '''WikiFab Article on Metal Detectors:''' ** [https://wikifab.org/ WikiFab - Metal Detectors Overview] ** This reference provides foundational knowledge on how metal detectors work and their applications. * '''Goldxtra Detector Official Site:''' ** [https://goldxtradetector.com/can-metal-detectors-detect-gold/ Goldxtra Detector] ** Detailed information on metal detectors designed for gold detection, including features, models, and usage tips. including features, models, and usage tips. )
• NEXT ENGINE 3D SCANNER :How to use it  + ( * Je me suis inspiré du [https://www.nasa … * Je me suis inspiré du [https://www.nasa.gov/sites/default/files/files/3DScannerTutorial.pdf User Training Manual - NextEngine 3D Scanner réalisé par ARC SpaceShop] que je trouve très bien fait. * Je me suis inspiré aussi du [http://cimar.mae.ufl.edu/rapid_proto/pages/rapid_proto/3D_Scanner_Tutorial.pdf NextEngine 3D Scanning Tutorial réalisé par University of Florida] que je trouve très bien fait. * Crédits Photo [https://www.flickr.com/photos/97323620@N03/sets/72157634964386425 Institute of Making] sets/72157634964386425 Institute of Making] )
• Petit tabouret en béton et manche de bois  + ( * Nous avons découvert ce tutoriel sur [http://homemade-modern.com/ Homemade Modern] * Vous pouvez voir une autre version de ce tabouret dans le reportage de [http://augusteetclaire.com/2014/04/interieur-bruxellois-chez-julie-et-severin/ Julie et Séverin] )
• Enfil'Combi  + ( * Pour voir une vidéo de démonstration su … * Pour voir une vidéo de démonstration sur le bras, cliquez içi : https://www.youtube.com/watch?v=WMGP7D9oU90 * pour voir une vidéo de démonstration sur la jambe, cliquez içi : [https://www.youtube.com/watch?v=E9mslezoAqY&feature=youtu.be https://www.youtube.com/watch?v=E9mslezoAqY] Nos faisons régulièrement des petites séries de 20 exemplaires, donc n'hésitez pas à en réserver un (sur demande sur le groupe facebook, ou chadeyron@hotmail.com) http://www.concoursfablife.org/consulter-les-inventions/view/607-enfil-vetement onsulter-les-inventions/view/607-enfil-vetement )
• Enfil'Combi  + ( * Pour voir une vidéo de démonstration su … * Pour voir une vidéo de démonstration sur le bras, cliquez içi : https://www.youtube.com/watch?v=WMGP7D9oU90 * pour voir une vidéo de démonstration sur la jambe, cliquez içi : [https://www.youtube.com/watch?v=E9mslezoAqY&feature=youtu.be https://www.youtube.com/watch?v=E9mslezoAqY] Nos faisons régulièrement des petites séries de 20 exemplaires, donc n'hésitez pas à en réserver un (sur demande sur le groupe facebook, ou chadeyron@hotmail.com) http://www.concoursfablife.org/consulter-les-inventions/view/607-enfil-vetement onsulter-les-inventions/view/607-enfil-vetement )
• Jerry DIT : ordinateur fabriqué avec des composants de réemploi  + ( * [http://www.adoptajerry.cc/ Adoptajerry … * [http://www.adoptajerry.cc/ Adoptajerry, le site de la communauté] * [https://github.com/JerryDIT JerryDIT sur Github] * [https://docs.google.com/document/d/1PAtfytvNcj8P3FLwGLJGbGXwc-xIwLuHizGTTHPiF6U/edit La charte JerryDIT] * [https://fr.wikipedia.org/wiki/Jerry_Do-It-Together L'article Jerry Do-it-together sur Wikipedia] * [http://rue89.nouvelobs.com/rue89-culture/2015/04/22/ordis-bidons-258696 Présentation du projet sur Rue89] ns-258696 Présentation du projet sur Rue89] )
• Jerry DIT : ordinateur fabriqué avec des composants de réemploi  + ( * [http://www.adoptajerry.cc/ Adoptajerry … * [http://www.adoptajerry.cc/ Adoptajerry, le site de la communauté] * [https://github.com/JerryDIT JerryDIT sur Github] * [https://docs.google.com/document/d/1PAtfytvNcj8P3FLwGLJGbGXwc-xIwLuHizGTTHPiF6U/edit La charte JerryDIT] * [https://fr.wikipedia.org/wiki/Jerry_Do-It-Together L'article Jerry Do-it-together sur Wikipedia] * [http://rue89.nouvelobs.com/rue89-culture/2015/04/22/ordis-bidons-258696 Présentation du projet sur Rue89] ns-258696 Présentation du projet sur Rue89] )
• Terrasse Top  + ( * [http://www.terrassetop.fr/ Lien vers le site de Terrasse Top] * Le Terrasse Top est un projet créé par [https://twitter.com/manderhalt Mathieu Anderhalt] )
• Terrasse Top  + ( * [http://www.terrassetop.fr/ Lien vers le site de Terrasse Top] * Le Terrasse Top est un projet créé par [https://twitter.com/manderhalt Mathieu Anderhalt] )
• CCD-or CMOS-lab-on-a-chip based on discrete converters of different physical and chemical parameters of samples into the optical signals with positional sensitivity for morphometry of non-optical patterns  + (<nowiki>'''References'''<br /> … '''References'''
  
  1. Abascal F, Carmona-Saez P, Carazo JM, Pascual-Montano A. ChIPCodis: mining complex regulatory systems in yeast by concurrent enrichment analysis of chip-on-chip data. Bioinformatics 2008, 24(9):1208-1209.
  
  2. Abramova N, Ipatov A, Levichev S, Bratov A. Integrated multi-sensor chip with photocured polymer membranes containing copolymerized plasticizer for direct pH, potassium, sodium and chloride ions determination in blood serum. Talanta 2009, 79(4):984-989.
  
  3. Adler J, Pagakis SN, Parmryd I. Replicate-based noise corrected correlation for accurate measurements of colocalization. J Microsc 2008, 230(1):121-133.
  
  4. Adler J, Parmryd I. Quantifying colocalization by correlation: the Pearson correlation coefficient is superior to the Mander's overlap coefficient. Cytometry A 2010, 77(8):733-742.
  
  5. Adler J, Parmryd I. Recent review on colocalization seem to misunderstand the Pearson correlation coefficient. J Microsc 2007, 227(1):83-85.
  
  6. Agarwal A, Goss JA, Cho A, McCain ML, Parker KK. Microfluidic heart on a chip for higher throughput pharmacological studies. Lab Chip 2013, 13(18):3599-3608.
  
  7. Ahmad AA, Wang Y, Gracz AD, Sims CE, Magness ST, Allbritton NL. Optimization of 3-D organotypic primary colonic cultures for organ-on-chip applications. J Biol Eng 2014, 8:9.
  
  8. Al Lawati HA, Al Dahmani ZM, Suliman FE, Al Kindy SM, Al-Lawati AM. Analysis of fexofenadine in pharmaceutical formulations using tris(1,10-phenanthroline)-ruthenium(II) peroxydisulphate chemiluminescence system in a multichip device. Luminescence 2011, 26(6):762-767.
  
  9. Albul VI. Production of thin scintillators from anthracene. Meas Techn 1968, 11(2): 281-282.
  
  10. Alexandrov P, Notchenko A, Gradova M, Gradov O. Simultaneous in situ detection of the optical fluorescence, fluorescence recovery kinetics after photobleaching & membrane ion flux on the electrophysiological lab-on-a-chip. American Journal of Optics and Photonics 2015, 3(5): 118-122.
  
  11. Ali MA, Mondal K, Jiao Y, Oren S, Xu Z, Sharma A, Dong L. Microfluidic Immuno-Biochip for Detection of Breast Cancer Biomarkers Using Hierarchical Composite of Porous Graphene and Titanium Dioxide Nanofibers. ACS Appl Mater Interfaces 2016, 8(32):20570-20582.
  
  12. Alluri NR, Saravanakumar B, Kim SJ. Flexible, Hybrid Piezoelectric Film (BaTi1-xZrxO3)/PVDF Nanogenerator as a Self-Powered Fluid Velocity Sensor. ACS Appl Mater Interfaces 2015, 7(18):9831-9840.
  
  13. An F, Qu Y, Liu X, Zhong R, Luo Y. Organ-on-a-Chip: New Platform for Biological Analysis. Anal Chem Insights 2015, 10:39-45.
  
  14. Anderson LK, Dean WA, Czarniewski V, Barnes CE. A latching magnetooptical polarization switch. Appl Opt 1968, 7(12):2432-2433.
  
  15. Andò S, Panno ML, Colpi G, Beraldi E, Aquila S. The influence of the sampling point on testicular steroid concentrations in spermatic venous blood: a physiological approach to evaluate testicular secretion. Horm Res 1987, 27(1):23-29.
  
  16. Apanasenko AL, Kulagin NA. Valence transformations of impurities in γ-Irradiated corundum. J Appl Spectr 1981, 35(1):800-803.
  
  17. Arima V, Pascali G, Lade O, Kretschmer HR, Bernsdorf I, Hammond V, Watts P, De Leonardis F, Tarn MD, Pamme N, Cvetkovic BZ, Dittrich PS, Vasovic N, Duane R, Jaksic A, Zacheo A, Zizzari A, Marra L, Perrone E, Salvadori PA, Rinaldi R. Radiochemistry on chip: towards dose-on-demand synthesis of PET radiopharmaceuticals. Lab Chip 2013, 13(12):2328-2336.
  
  18. Arkhangel’skii VB, Glagolev SF, Kazakova TP, Kuznetsova LA, Chervinskii MM. Birefringence errors in magnetooptical high-current converters. Meas Tech 1986, 29(6):562-565.
  
  19. Arkhangel’skii VB, Glagolev SF, Kazakova TP, Palei TG. Frequency characteristics of magnetooptical current converters. Meas Tech 1989, 32(5):460-461.
  
  20. Aulich H, Beck W, Douklias N, Harms H, Papp A, Schneider H. Magnetooptical current transformer. 2: Components. Appl Opt 1980, 19(22):3735-3740.
  
  21. Avdeyev SP, Karnaukhov VA, Kuznetsov VD, Petrov LA, Rodionov VK, Karcz W, Janitcki M, Oeschler H. Thickness Measurements of Thin CsI(Tl) Scintillators. Instr Exp Tech 2001, 44(5):634-637.
  
  22. Bachinger T, Martensson P, Mandenius CF. Estimation of biomass and specific growth rate in a recombinant Escherichia coli batch cultivation process using a chemical multisensor array. J Biotechnol 1998, 60(1-2):55-66.
  
  23. Balsam J, Bruck HA, Rasooly A. Two-layer Lab-on-a-chip (LOC) with passive capillary valves for mHealth medical diagnostics. Methods Mol Biol 2015, 1256:247-258.
  
  24. Basak SC. Chemobioinformatics: the advancing frontier of computer-aided drug design in the post-genomic era. Curr Comput Aided Drug Des 2012, 8(1):1-2.
  
  25. Bazylev AG, Kalinov VS, Mikhnov SA, Ovseichuk SI, Skavarda do Karmo LK. On absorption of radiative F3+ color centers in LiF crystals. J Appl Spectr 1992, 57(5):894-897.
  
  26. Berdnikov VV, Gurov YB, Dolgoshein BA, Dmitrenko VV, Zadneprovskii BI, Kantserov VA, Sosnovtsev VV, Tikhomirov VO, Shmeleva AP. A transition radiation detector based on thin inorganic scintillators. Instr Exp Tech 2013, 56(2):146-150.
  
  27. Bhavnani SP, Narula J, Sengupta PP. Mobile technology and the digitization of healthcare. Eur Heart J 2016, 37(18):1428-1438.
  
  28. Bhise NS, Ribas J, Manoharan V, Zhang YS, Polini A, Massa S, Dokmeci MR, Khademhosseini A. Organ-on-a-chip platforms for studying drug delivery systems. J Control Release 2014, 190:82-93.
  
  29. Billett HH, Simson E, Main P, Bailey C, Guerra P. The MAXM hematology autoanalyzer. An alternative? Am J Clin Pathol 1994, 102(1):36-44.
  
  30. Binder H, Krohn K, Preibisch S. “Hook”-calibration of GeneChip-microarrays: chip characteristics and expression measures. Algorithms Mol Biol 2008, 3:11.
  
  31. Bishara W, Sikora U, Mudanyali O, Su TW, Yaglidere O, Luckhart S, Ozcan A. Portable and cost-effective pixel super-resolution on-chip microscope for telemedicineapplications. Conf Proc IEEE Eng Med Biol Soc 2011, 2011:8207-8210.
  
  32. Bjerketorp J, Ng Tze Chiang A, Hjort K, Rosenquist M, Liu WT, Jansson JK. Rapid lab-on-a-chip profiling of human gut bacteria. J Microbiol Methods 2008, 72(1):82-90.
  
  33. Blakely RD, Ory-Lavollée L, Thompson RC, Coyle JT. Synaptosomal transport of radiolabel from N-acetyl-aspartyl-[3H]glutamate suggests a mechanism of inactivation of an excitatory neuropeptide. J Neurochem 1986, 47(4):1013-1019.
  
  34. Bonakdar M, Wasson EM, Lee YW, Davalos RV. Electroporation of Brain Endothelial Cells on Chip toward Permeabilizing the Blood-Brain Barrier. Biophys J 2016, 110(2):503-513.
  
  35. Bond JW. Capturing finger and palm impressions using a hand cream and thermochromatic paper. J Forensic Sci 2013, 58(5):1297-1299.
  
  36. Bosco FG, Bache M, Yang J, Chen CH, Hwu ET, Lin Q, Boisen A. Micromechanical PDGF recognition via lab-on-a-disc aptasensor arrays. Sens Actuators A Phys 2013, 195:154-159.
  
  37. Bougot-Robin K, Wen W, Benisty H. Resonant waveguide sensing made robust by on-chip peak tracking through image correlation. Biomed Opt Express 2012, 3(10):2436-2451.
  
  38. Bouyoucef SE, Cullum ID, Ell PJ. Cross-calibration of a fan-beam X-ray densitometer with a pencil-beam system. Br J Radiol 1996, 69(822):522-531.
  
  39. Bovet C, Wortmann A, Eiler S, Granger F, Ruff M, Gerrits B, Moras D, Zenobi R. Estrogen receptor-ligand complexes measured by chip-based nanoelectrospray mass spectrometry: an approach for the screening of endocrine disruptors. Protein Sci 2007, 16(5):938-946
  
  40. Brigadnov IY, Gurin NT, Ryabinov EB. Thin-film electroluminescent indicators with composite liquid dielectric. J Appl Spectrosc 1993, 59(1):602-608.
  
  41. Brivio M, Verboom W, Reinhoudt DN. Miniaturized continuous flow reaction vessels: influence on chemical reactions. Lab Chip 2006, 6(3):329-344.
  
  42. Brown JA, Pensabene V, Markov DA, Allwardt V, Neely MD, Shi M, Britt CM, Hoilett OS, Yang Q, Brewer BM, Samson PC, McCawley LJ, May JM, Webb DJ, Li D, Bowman AB, Reiserer RS, Wikswo JP. Recreating blood-brain barrier physiology and structure on chip: A novel neurovascular microfluidic bioreactor. Biomicrofluidics 2015, 9(5):054124.
  
  43. Brown LF. The theory and design of piezoelectric/pyroelectric polymer film sensors for biomedical engineering applications. Biomed Sci Instrum 1989, 25:119-126.
  
  44. Bu N, Ueno N, Fukuda O. Monitoring of respiration and heartbeat during sleep using a flexible piezoelectric film sensor and empirical mode decomposition. Conf Proc IEEE Eng Med Biol Soc 2007, 2007:1362-1366.
  
  45. Buchegger P, Preininger C. Four assay designs and on-chip calibration: gadgets for a sepsis protein array. Anal Chem 2014, 86(6):3174-3180.
  
  46. Cao D, Wang C, Zheng F, Dong W, Fang L, Shen M. High-efficiency ferroelectric-film solar cells with an n-type Cu2O cathode buffer layer. Nano Lett 2012, 12(6):2803-2809.
  
  47. Capasso A, Cerchia C, Di Giovanni C, Granato G, Albano F, Romano S, De Vendittis E, Ruocco MR, Lavecchia A. Ligand-based chemoinformatic discovery of a novel small molecule inhibitor targeting CDC25 dual specificity phosphatases and displaying in vitro efficacy against melanoma cells. Oncotarget 2015, 6(37): 40202-40222.
  
  48. Caplin JD, Granados NG, James MR, Montazami R, Hashemi N. Microfluidic Organ-on-a-Chip Technology for Advancement of Drug Development and Toxicology. Adv Healthc Mater 2015, 4(10):1426-1450.
  
  49. Cellar NA, Burns ST, Meiners JC, Chen H, Kennedy RT. Microfluidic chip for low-flow push-pull perfusion sampling in vivo with on-line analysis of amino acids. Anal Chem 2005, 77(21):7067-7073.
  
  50. Challener WA, Grove SL. Refractive indices of reactive magnetooptical thin films. Appl Opt 1990, 29(20):3040-3045.
  
  51. Challener WA, Rinehart TA. Jones matrix analysis of magnetooptical media and read-back systems. Appl Opt 1987, 26(18):3974-3980.
  
  52. Cheah LT, Dou YH, Seymour AM, Dyer CE, Haswell SJ, Wadhawan JD, Greenman J. Microfluidic perfusion system for maintaining viable heart tissue with real-time electrochemical monitoring of reactive oxygen species. Lab Chip 2010, 10(20):2720-2726.
  
  53. Chen A, Eberle MM, Lunt EJ, Liu S, Leake K, Rudenko MI, Hawkins AR, Schmidt H. Dual-color fluorescence cross-correlation spectroscopy on a planar optofluidic chip. Lab Chip 2011, 11(8):1502-1506.
  
  54. Chen A, Eberle MM, Lunt EJ, Liu S, Leake K, Rudenko MI, Hawkins AR, Schmidt H. Dual-color fluorescence cross-correlation spectroscopy on a planar optofluidic chip. Lab Chip 2011, 11(8):1502-1506.
  
  55. Chen J, Li W, Yan C, Yuan L, Guo J, Zhou X. Characterization and application of PBA fiber optic chemical film sensor based on fluorescence multiple quenching. Sci Ch C: Life Sci 1997, 40(4):414-421.
  
  56. Chen JY, Huang YT, Chou HH, Wang CP, Chen CF. Rapid and inexpensive blood typing on thermoplastic chips. Lab Chip 2015, 15(24):4533-4541.
  
  57. Chen Q, Liu X, Chen J, Zeng J, Cheng Z, Liu Z. A Self-Assembled Albumin-Based Nanoprobe for In Vivo Ratiometric Photoacoustic pH Imaging. Adv Mater 2015, 27(43):6820-6827.
  
  58. Chien WT, Sun CC, Moreno I. Precise optical model of multi-chip white LEDs. Opt Express 2007, 15(12):7572-7577.
  
  59. Chivian JS, Claytor RN, Eden DD, Hemphill RB. Infrared recording with thermochromic Cu2Hgl4. Appl Opt 1972, 11(11):2649-2656.
  
  60. Cho S, Islas-Robles A, Nicolini AM, Monks TJ, Yoon JY. In situ, dual-mode monitoring of organ-on-a-chip with smartphone-based fluorescence microscope. Biosens Bioelectron 2016, 86:697-705.
  
  61. Choi I, Lee JY, Lacroix M, Han J. Intelligent pH indicator film composed of agar/potato starch and anthocyanin extracts from purple sweet potato. Food Chem 2017, 218:122-128.
  
  62. Chou WY, Han P, Pilsner A, Coa K, Greenberg L, Blatt B. Interdisciplinary research on patient-provider communication: a cross-method comparison. Commun Med 2011;8(1):29-40.
  
  63. Choudhury D, Jaque D, Rodenas A, Ramsay WT, Paterson L, Kar AK. Quantum dot enabled thermal imaging of optofluidic devices. Lab Chip 2012, 12(13):2414-2420.
  
  64. Christensen MP, McFadden MJ, Milojkovic P, Haney MW. Experimental validation of hybrid micro-macro optical method for distortion removal in multi-chipglobal free-space optical-interconnection systems. Appl Opt 2002, 41(35):7480-7486.
  
  65. Corgier BP, Marquette CA, Blum LJ. Direct electrochemical addressing of immunoglobulins: immuno-chip on screen-printed microarray. Biosens Bioelectron 2007, 22(7):1522-1526.
  
  66. Coskun AF, Su TW, Sencan I, Ozcan A. Lensfree Fluorescent On-Chip Imaging using Compressive Sampling. Opt Photonics News 2010, 21(12):27.
  
  67. Cruz-Rivera JL, Wills DS, Gaylord TK, Glytsis EN. Optimal usage of available wiring resources in diffractive-reflective optoelectronic multichip modules. Appl Opt 1998, 37(2):233-253.
  
  68. De Leonardis F, Pascali G, Salvadori PA, Watts P, Pamme N. On-chip pre-concentration and complexation of [¹⁸F]fluoride ions via regenerable anion exchange particles for radiochemical synthesis of Positron Emission Tomography tracers. J Chromatogr A 2011, 1218(29):4714-4719.
  
  69. De Mets M, Lagasse A. An investigation of some organic chemicals as cathodoluminescent dyes using the scanning electron microscope. J Microsc 1971, 94(2):151-156.
  
  70. Delgado SM, Kinahan DJ, Sandoval FS, Julius LA, Kilcawley NA, Ducrée J, Mager D. Fully automated chemiluminescence detection using an electrified-Lab-on-a-Disc (eLoaD) platform. Lab Chip 2016, 16(20):4002-4011.
  
  71. Deng Z, Li C. Noninvasively measuring oxygen saturation of human finger-joint vessels by multi-transducerfunctional photoacoustic tomography. J Biomed Opt 2016, 21(6):61009.
  
  72. Deng Z, Li W, Li C. Slip-ring-based multi-transducer photoacoustic tomography system. Opt Lett 2016, 41(12):2859-2862.
  
  73. Deosarkar SP, Prabhakarpandian B, Wang B, Sheffield JB, Krynska B, Kiani MF. A Novel Dynamic Neonatal Blood-Brain Barrier on a Chip. PLoS One 2015, 10(11):e0142725.
  
  74. Do J, Ahn CH. A polymer lab-on-a-chip for magnetic immunoassay with on-chip sampling and detection capabilities. Lab Chip 2008, 8(4):542-549.
  
  75. Dolgov VM, Likholetova LG. Use of thermooptical effects in liquid crystals to visualize electromagnetic fields. Radiophys Quant Electron 1979, 22(4):330-335.
  
  76. Du WB, Fang Q, He QH, Fang ZL. High-throughput nanoliter sample introduction microfluidic chip-based flow injection analysis system with gravity-driven flows. Anal Chem 2005, 77(5):1330-1337.
  
  77. Esch MB, King TL, Shuler ML. The role of body-on-a-chip devices in drug and toxicity studies. Annu Rev Biomed Eng 2011, 13:55-72.
  
  78. Esch MB, Mahler GJ, Stokol T, Shuler ML. Body-on-a-chip simulation with gastrointestinal tract and liver tissues suggests that ingested nanoparticles have the potential to cause liver injury. Lab Chip 2014, 14(16):3081-3092.
  
  79. Esch MB, Sung JH, Yang J, Yu C, Yu J, March JC, Shuler ML. On chip porous polymer membranes for integration of gastrointestinal tract epithelium with microfluidic 'body-on-a-chip' devices. Biomed Microdevices 2012, 14(5):895-906.
  
  80. Esch MB, Ueno H, Applegate DR, Shuler ML. Modular, pumpless body-on-a-chip platform for the co-culture of GI tract epithelium and 3D primary liver tissue. Lab Chip 2016, 16(14):2719-2729.
  
  81. Evsevichev DA, Maksimova OV, Samokhvalov MK. The automated system of technological preparation of production of thin-film electroluminescent indicator devices—TFEL DDS. Automat Rem Contr 2016, 77(6):1093-1098.
  
  82. Fan J, Catanzaro B, Ozguz VH, Cheng CK, Lee SH. Design considerations and algorithms for partitioning optoelectronic multichip modules. Appl Opt 1995, 34(17):3116-3127.
  
  83. Fan L, Fallahi M, Hader J, Zakharian AR, Moloney JV, Murray JT, Bedford R, Stolz W, Koch SW. Multichip vertical-external-cavity surface-emitting lasers: a coherent power scaling scheme. Opt Lett 2006, 31(24):3612-3614.
  
  84. Fang Q, Xu GM, Fang ZL. A high-throughput continuous sample introduction interface for microfluidic chip-based capillary electrophoresis systems. Anal Chem 2002, 74(6):1223-1231.
  
  85. Feng J, de la Fuente-Núñez C, Trimble MJ, Xu J, Hancock RE, Lu X. An in situ Raman spectroscopy-based microfluidic “lab-on-a-chip” platform for non-destructive and continuous characterization of Pseudomonas aeruginosa biofilms. Chem Commun 2015, 51(43):8966-8969.
  
  86. Ferguson WJ, Kemp K, Kost G. Using a geographic information system to enhance patient access to point-of-care diagnostics in a limited-resource setting. Int J Health Geogr 2016, 15:10.
  
  87. Fessenden P, Lee ER, Anderson TL, Strohbehn JW, Meyer JL, Samulski TV, Marmor JB. Experience with a multitransducer ultrasound system for localized hyperthermia of deep tissues. IEEE Trans Biomed Eng 1984, 31(1):126-135.
  
  88. Fisher R, Ledwaba L, Hancke G, Kruger C. Open hardware: a role to play in wireless sensor networks. Sensors 2015, 15(3):6818-6844.
  
  89. Fleck E. Medical aspects of telemedicine: chip cards, electronic reception and more (short report). Z Arztl Fortbild Qualitatssich 1999, 93(10):792-794.
  
  90. Fleming JJ, Swaminathan S. Interference in autoanalyzer analysis. Ind J Clin Biochem 2001, 16(1):22-30.
  
  91. Foster JM, Oumie A, Togneri FS, Vasques FR, Hau D, Taylor M, Tinkler-Hundal E, Southward K, Medlow P, McGreeghan-Crosby K, Halfpenny I, McMullan DJ, Quirke P, Keating KE, Griffiths M, Spink KG, Brew F. Cross-laboratory validation of the OncoScan® FFPE Assay, a multiplex tool for whole genome tumour profiling. BMC Med Genomics 2015, 8:5.
  
  92. Franco C, Gerhardt H. Tissue engineering: Blood vessels on a chip. Nature 2012, 488(7412):465-466.
  
  93. Fratello VJ, Mnushkina I, Licht SJ. Anisotropy Effects in the Growth of Magneto-Optic Indicator Films. NATO Sci Ser 2004, 142:311-318.
  
  94. Funasako Y, Mochida T. Thermochromic and solvatochromic Nafion films incorporating cationic metal-chelate complexes. Chem Commun 2013, 49(41):4688-4890.
  
  95. Gaiduk OV, Pantaler RP, Grebenyuk NN, Ostrovskaya VM. Rapid determination of copper (I, II) ions using reagent indicator paper. J Analyt Chem 2009, 64(2):201-205.
  
  96. Galbraith GM, Galbraith RM. Combined radiolabel-binding and immunocytochemical evaluation of receptor-ligand interactions. Studies of transferrin receptors on activated lymphocytes. Biochem J 1981, 200(1):173-176.
  
  97. Ganesh S, Velavendan P, Pandey NK, Mudali UK, Natarajan R. On-site monitoring of uranium in low level liquid waste streams using U-Br-PADAP strip indicator paper technique. J Radioanalyt Nucl Chem 2014, 302(3):1513-1518.
  
  98. Gao L, Lü F, Xia H, Ding L, Fang Y. Fluorescent film sensor for copper ion based on an assembled monolayer of pyrene moieties. Spectrochim Acta A Mol Biomol Spectrosc 2011, 79(3):437-442.
  
  99. Garcia-Murillo A, LeLuyer-Urlacher C, Dujardin C, Pédrini C, Mugnier J. Rare-Earth Actived Sol-Gel Films for Scintillator Applications. J Sol-Gel Sci Techn 2003, 26(1):957-960.
  
  100. Garnica-Garza HM. Monte Carlo-derived TLD cross-calibration factors for treatment verification and measurement of skin dose in accelerated partial breast irradiation. Phys Med Biol 2009, 54(6):1621-1631.
  
  101. Gashti MP, Asselin J, Barbeau J, Boudreau D, Greener J. A microfluidic platform with pH imaging for chemical and hydrodynamic stimulation of intact oral biofilms. Lab Chip 2016, 16(8):1412-1419.
  
  102. Gavrilovic M, Wählby C. Quantification of colocalization and cross-talk based on spectral angles. J Microsc 2009, 234(3):311-324.
  
  103. Genant HK, Grampp S, Glüer CC, Faulkner KG, Jergas M, Engelke K, Hagiwara S, Van Kuijk C. Universal standardization for dual X-ray absorptiometry: patient and phantom cross-calibration results. J Bone Miner Res 1994, 9(10):1503-1514.
  
  104. Gerald JK, William JF, Laurie EK. Principles of Point of Care Culture, the Spatial Care Path™, and Enabling Community and Global Resilience: Enabling Community and Global Resilience. EJIFCC 2014, 25(2):134-153.
  
  105. Geworski L, Knoop BO, de Wit M, Ivancević V, Bares R, Munz DL. Multicenter comparison of calibration and cross calibration of PET scanners. J Nucl Med 2002, 43(5):635-639.
  
  106. Ghanekar R, Srinivasasainagendra V, Page GP. Cross-chip probe matching tool: A web-based tool for linking microarray probes within and across plant species. Int J Plant Genomics 2008, 2008:451327.
  
  107. Ghose AK, Herbertz T, Salvino JM, Mallamo JP. Knowledge-based chemoinformatic approaches to drug discovery. Drug Discov Today 2006, 11(23-24):1107-1114.
  
  108. Gieling TH, van Meurs WT, Janssen HJ. A computer network with SCADA and case tools for on-line process control in greenhouses. Adv Space Res 1996, 18(1-2):171-174.
  
  109. Gillot F, Morin FO, Arata HF, Guégan R, Tanaka H, Fujita H. On-chip thermal calibration with 8 CB liquid crystal of micro-thermal device. Lab Chip 2007, 7(11):1600-1602.
  
  110. Glass NR, Shilton RJ, Chan PP, Friend JR, Yeo LY. Miniaturized Lab-on-a-Disc (miniLOAD). Small 2012, 8(12):1881-1888.
  
  111. Gonen S, Bishop SC, Houston RD. Exploring the utility of cross-laboratory RAD-sequencing datasets for phylogenetic analysis. BMC Res Notes 2015, 8:299.
  
  112. Gosselin B, Ayoub AE, Roy JF, Sawan M, Lepore F, Chaudhuri A, Guitton D. A mixed-signal multichip neural recording interface with bandwidth reduction. IEEE Trans Biomed Circuits Syst 2009, 3(3):129-141.
  
  113. Gradoff O. Visualization of Photoinduced Self-Organization Processes in Reaction-Diffusion Media for Modelling of Abiogenesis and Primitive Waves in Morphogenesis. Int J Biophys 2012, 2(3):26-39.
  
  114. Gradov OV, Notchenko AV. Accessible morphohistochemical labs-on-a-chip based on different counting chambers' grids: microfluidic morphodynamical workstations. Morphologia 2012, 6(1):5-19. Max Planck IRGC: http://core.coll.mpg.de/Record/DOAJ020377843.
  
  115. Gradov OV, Orekhov FK. Comparative labs-on-a-chip for dairy product analysis with automatic calibration using spectrophotometric or colorimetric temperature and tuple chemometric analyte systematization. Veterin zootech & biotech 2014, 6:45-63.
  
  116. Gradov OV. Experimental Setups for Ozonometric Microscopy. Biomedical Engineering 2013, 46(6):260-264.
  
  117. Gradov OV. Digital lab-on-a-chip as analog of soil chambers & rossi-cholodny slides. VII Int Symp CBAFFF (7-th Fr. Progr.) 2012, 17-18.
  
  118. Gradov OV, Gradova MA. Reaction-diffusion optoelectronics based on dispersed semiconductors. J Physics: Conf Series 2015, 643:012072.
  
  119. Grädow O. Novel “phenospectral auxanometry” using complexation of optical spectroscopy and chromatographic auxanometry or GC-MS-auxanometry in forest plant species vegetation phenological monitoring based on gas and flavor chemistry principles. Int J Green Herb Chem A: Green Chem 2014, 3(2):555-579.
  
  120. Grampp S, Nather A, Rintelen B, Henk C, Resch-Holeczke A, Imhof H, Resch H. Peripheral quantitative CT of the forearm: scanner cross-calibration using patient data. Br J Radiol 2000, 73(867):275-277.
  
  121. Gregory P. Unusual effect colourants. Surf Coat Int Part B: Coat Transact 2003, 86:1
  
  122. Grishina AD, Tedoradze MG, Kolesnikov VA, Mal’tsev EI, Brusentseva MA., Kostenko AI, Popov AF, Vannikov AV. Photochemical production of electroluminescent image. High Energy Chemistry 2000, 34(5):309-314.
  
  123. Gromova OA, Torshin IY, Limanova OA, Gromov AN, Fedotova LE, Rudakov KV. The Neurotropic, Anti-Inflammatory, and Antitumor Properties of the Hopantenic Acid Molecule Based on Chemoinformatic Analysis. Neurosci Behav Physiol 2016, 46(9):1097-1106.
  
  124. Grosberg A, Alford PW, McCain ML, Parker KK. Ensembles of engineered cardiac tissues for physiological and pharmacological study: heart on achip. Lab Chip 2011, 11(24):4165-4173.
  
  125. Gruber M. Multichip module with planar-integrated free-space optical vector-matrix-type interconnects. Appl Opt 2004, 43(2):463-470.
  
  126. Gruschke OG, Baxan N, Clad L, Kratt K, von Elverfeldt D, Peter A, Hennig J, Badilita V, Wallrabe U, Korvink JG. Lab on a chip phased-array MR multi-platform analysis system. Lab Chip 2012, 12(3):495-502.
  
  127. Gunyakov VA, Gerasimov VP, Myslivets SA, Arkhipkin VG, Vetrov SY, Kamaev GN, Shabanov AV, Zyryanov VY, Shabanov VF. Thermooptical switching in a one-dimensional photonic crystal. Tech Phys Lett 2006, 32(11):951-953
  
  128. Gurin NT, Sabitov OY, Brigadnov IY. Thin-film electroluminescent emitters on rough substrates. Techn Phys Lett 1997, 23(8):577-579.
  
  129. Gurin NT, Sabitov OY. Investigation of thin-film electroluminescent structures on rough subsrates. J Appl Spectrosc 1997, 64(4):523-528.
  
  130. Handelzalts JE, Fisher S, Naot R. Object relations and real life relationships: a cross method assessment. Scand J Psychol 2014, 55(2):160-167.
  
  131. Haney MW, Christensen MP, Milojkovic P, Ekman J, Chandramani P, Rozier R, Kiamilev F, Liu Y, Hibbs-Brenner M. Multichip free-space global optical interconnection demonstration with integrated arrays of vertical-cavity surface-emitting lasers and photodetectors. Appl Opt 1999, 38(29):6190-6200.
  
  132. Hanna DM, Oakley BA, Stryker GA. Using a system-on-a-chip implantable device to filter circulating infected cells in blood or lymph. IEEE Trans Nanobioscience 2003, 2(1):6-13.
  
  133. Harms H, Papp A. Magnetooptical current transformer. 3: Measurements. Appl Opt 1980, 19(22):3741-3745.
  
  134. Hartmann O. Quality control for microarray experiments. Methods Inf Med 2005, 44(3):408-413.
  
  135. Hassan U, Reddy B Jr, Damhorst G, Sonoiki O, Ghonge T, Yang C, Bashir R. A microfluidic biochip for complete blood cell counts at the point-of-care. Technology 2015, 3(4):201-213.
  
  136. Hein MB, Brenner ML, Brun WA. Accumulation of C-radiolabel in leaves and fruits after injection of [C]tryptophan into seeds of soybean. Plant Physiol 1986, 82(2):454-456.
  
  137. Hejazian M, Li W, Nguyen NT. Lab on a chip for continuous-flow magnetic cell separation. Lab Chip 2015, 15(4):959-970.
  
  138. Heo KC, Sohn Y, Yi J, Kwon JH, Son PK, Gwag JS. Reflective color display using thermochromic pigments. Appl Opt 2012, 51(18):4246-4249.
  
  139. Herman P, Drapalova H, Muzikova R, Vecer J. Electroporative adjustment of pH in living yeast cells: ratiometric fluorescence pH imaging. J Fluoresc 2005, 15(5):763-768.
  
  140. Hetland PO, Friberg EG, Ovrebø KM, Bjerke HH. Calibration of reference KAP-meters at SSDL and cross calibration of clinical KAP-meters. Acta Oncol 2009, 48(2):289-294.
  
  141. Hilderbrand SA, Kelly KA, Niedre M, Weissleder R. Near infrared fluorescence-based bacteriophage particles for ratiometric pH imaging. Bioconjug Chem 2008, 19(8):1635-1639.
  
  142. Hoffman RA, Wang L, Bigos M, Nolan JP. NIST/ISAC standardization study: variability in assignment of intensity values to fluorescence standard beads and in cross calibration of standard beads to hard dyed beads. Cytometry A 2012, 81(9):785-796.
  
  143. Horng RH, Hu HL, Lin RC, Tang LS, Hsu CP, Ou SL. Cup-shaped copper heat spreader in multi-chip high-power LEDs application. Opt Express 2012, 20(Suppl 5):A597-А605.
  
  144. Huang H, Jiang L, Li S, Deng J, Li Y, Yao J, Li B, Zheng J. Using microfluidic chip to form brain-derived neurotrophic factor concentration gradient for studyingneuron axon guidance. Biomicrofluidics 2014, 8(1):014108.
  
  145. Hussain SB. Cadmium sulphide piezoelectric film transducers for on-machine' ultrasonic evaluation of spot-welds. Ultrasonics 1971, 9(3):158-165.
  
  146. Huynh BH, Fogarty BA, Nandi P, Lunte SM. A microchip electrophoresis device with on-line microdialysis sampling and on-chip sample derivatization by naphthalene 2,3-dicarboxaldehyde/2-mercaptoethanol for amino acid and peptide analysis. J Pharm Biomed Anal 2006, 42(5):529-534.
  
  147. Hwang H, Kim Y, Cho J, Lee JY, Choi MS, Cho YK. Lab-on-a-disc for simultaneous determination of nutrients in water. Anal Chem 2013, 85(5):2954-2960.
  
  148. Inami W, Fukuta M, Masuda Y, Nawa Y, Ono A, Lin S, Kawata Y, Terakawa S. A plastic scintillator film for an electron beam-excitation assisted optical microscope. Opt Rev 2015, 22(2):354-358.
  
  149. Jang A, Zou Z, MacKnight E, Wu PM, Kim IS, Ahn CH, Bishop PL. Development of a portable analyzer with polymer lab-on-a-chip (LOC) for continuous sampling and monitoring of Pb(II). Water Sci Technol 2009, 60(11):2889-2896
  
  150. Jastrzebska E, Tomecka E, Jesion I. Heart-on-a-chip based on stem cell biology. Biosens Bioelectron 2016, 75:67-81.
  
  151. Jeje MO, Newton D, Blajchman MA. Quantitation of minor red cell populations using the single-channel autoanalyzer. Transfusion 1983, 23(2):155-157.
  
  152. Jezierski S, Belder D, Nagl S. Microfluidic free-flow electrophoresis chips with an integrated fluorescent sensor layer for real time pH imaging in isoelectric focusing. Chem Commun 2013, 49(9):904-906.
  
  153. Jiang X, Zhu T, Yang J, Li S, Ye S, Liao S, Meng L, Lu Y, Ma D. Identification of novel epithelial ovarian cancer biomarkers by cross-laboratory microarray analysis. J Huazhong Univ Sci Technolog Med Sci 2010, 30(3):354-359.
  
  154. Jin C, Kurzawski P, Hierlemann A, Zellers ET. Evaluation of multitransducer arrays for the determination of organic vapor mixtures. Anal Chem 2008, 80(1):227-236.
  
  155. Jin C, Zellers ET. Limits of recognition for binary and ternary vapor mixtures determined with multitransducer arrays. Anal Chem 2008, 80(19):7283-7293.
  
  156. Kameda S, Yagi T. An analog silicon retina with multichip configuration. IEEE Trans Neural Netw 2006, 17(1):197-210.
  
  157. Karadimitriou NK, Nuske P, Kleingeld PJ, Hassanizadeh SM, Helmig R. Simultaneous thermal and optical imaging of two-phase flow in a micro-model. Lab Chip 2014, 14(14):2515-2524.
  
  158. Karsunke XY, Niessner R, Seidel M. Development of a multichannel flow-through chemiluminescence microarray chip for parallelcalibration and detection of pathogenic bacteria. Anal Bioanal Chem 2009, 395(6):1623-1630.
  
  159. Kassal P, Šurina R, Vrsaljko D, Steinberg IM. Hybrid sol–gel thin films doped with a pH indicator: effect of organic modification on optical pH response and film surface hydrophilicity. J Sol-Gel Sci Technol 2014, 69(3):586-595.
  
  160. Kayo S, Bahnemann J, Klauser M, Pörtner R, Zeng AP. A microfluidic device for immuno-affinity-based separation of mitochondria from cell culture. Lab Chip 2013, 13(22):4467-4475.
  
  161. Kaz DM, Bischak CG, Hetherington CL, Howard HH, Marti X, Clarkson JD, Adamo C, Schlom DG, Ramesh R, Aloni S, Ogletree DF, Ginsberg NS. Bright cathodoluminescent thin films for scanning nano-optical excitation and imaging. ACS Nano 2013, 7(11):10397-10404.
  
  162. Kelm JM, Marchan R. Progress in 'body-on-a-chip' research. Arch Toxicol 2014, 88(11):1913-1914.
  
  163. Kertesz V, Van Berkel GJ. Fully automated liquid extraction-based surface sampling and ionization using a chip-based robotic nanoelectrospray platform. J Mass Spectrom 2010, 45(3):252-260.
  
  164. Kim B, Kim J, Ohm WS, Kang S. Eliminating hotspots in a multi-chip LED array direct backlight system with optimal patterned reflectors for uniform illuminanceand minimal system thickness. Opt Express 2010, 18(8):8595-8604.
  
  165. Kim H, Chang JY. Reversible thermochromic polymer film embedded with fluorescent organogel nanofibers. Langmuir 2014, 30(45):13673-13679.
  
  166. Kim HJ, Huh D, Hamilton G, Ingber DE. Human gut-on-a-chip inhabited by microbial flora that experiences intestinal peristalsis-like motions and flow. Lab Chip 2012, 12(12):2165-2174.
  
  167. Kim HJ, Lee J, Choi JH, Bahinski A, Ingber DE. Co-culture of Living Microbiome with Microengineered Human Intestinal Villi in a Gut-on-a-ChipMicrofluidic Device. J Vis Exp 2016, 114.
  
  168. Kim HJ, Li H, Collins JJ, Ingber DE. Contributions of microbiome and mechanical deformation to intestinal bacterial overgrowth and inflammation in a human gut-on-a-chip. PNAS 2016, 113(1):E7-15.
  
  169. Kim J, Lee H, Selimović Š, Gauvin R, Bae H. Organ-on-a-chip: development and clinical prospects toward toxicity assessment with an emphasis on bone marrow. Drug Saf 2015, 38(5):409-418.
  
  170. Kim MH, Choi SJ. Immunoassay of paralytic shellfish toxins by moving magnetic particles in a stationary liquid-phase lab-on-a-chip. Biosens Bioelectron 2015, 66:136-140.
  
  171. Kim S, Takayama S. Organ-on-a-chip and the kidney. Kidney Res Clin Pract 2015, 34(3):165-169.
  
  172. Kim WR, Jang MJ, Joo S, Sun W, Nam Y. Surface-printed microdot array chips for the quantification of axonal collateral branching of a singleneuron in vitro. Lab Chip 2014, 14(4):799-805.
  
  173. Kong DX, Li XJ, Tang GY, Zhang HY. How many traditional Chinese medicine components have been recognized by modern Western medicine? A chemoinformatic analysis and implications for finding multicomponent drugs. ChemMedChem 2008, 3(2):233-236
  
  174. Kowada Y, Ozeki T, Minami T. Preparation of silica-gel film with pH indicators by the sol–gel method. J Sol-Gel Sci Technol 2005, 33(2):175-185.
  
  175. Koydemir HC, Gorocs Z, Tseng D, Cortazar B, Feng S, Chan RY, Burbano J, McLeod E, Ozcan A. Rapid imaging, detection and quantification of Giardia lamblia cysts using mobile-phone based fluorescent microscopy and machine learning. Lab Chip 2015, 15(5):1284-1293.
  
  176. Krafft C, Zhang J, Marr K, Dottellis JB, Mayergoyz I. Forensic Imaging of Magnetic Tapes Using Magnetic Garnet Indicator Films. NATO Sci Ser 2004, 142:273-281.
  
  177. Kuan DH, Wang IS, Lin JR, Yang CH, Huang CH, Lin YH, Lin CT, Huang NT. A microfluidic device integrating dual CMOS polysilicon nanowire sensors for on-chip whole bloodprocessing and simultaneous detection of multiple analytes. Lab Chip 2016, 16(16):3105-3113.
  
  178. Kulagin NA, Apanasenko AL, Kazakov NA. Stability conditions for various valency states of traces of manganese in α-Al2O3. J Appl Spectr 1983, 38(6):725-729.
  
  179. Kulagin NA, Dojcilovic J. Structural and radiation color centers and the dielectric properties of doped yttrium aluminum garnet crystals. Phys Sol St 2007, 49(2):243-250.
  
  180. Kulagin NA, Ovechkin AE, Antonov EV. Color centers in the γ-irradiated garnet Y3Al15O12. J Appl Spectr 1985, 43(3):1044-1049
  
  181. Kulagin NA, Ozerov MF, Rokhmanova VO. Effect of γ radiation on the electron state of chromium ions in Y3Al5O12 monocrystals. J Appl Spectr 1987, 46(4):393-396.
  
  182. Kulagin NA, Podus LP, Ky VC. Color centers of γ-irradiated quartz. J Appl Spectr 1984, 40(3):351-353.
  
  183. Kulagin NA. Electronic Structure of Doped and Irradiated Wide Band-Gap Crystals. NATO Sci Ser 2003, 126:135-162
  
  184. Kulagin NA. Radiative color centers in doped sapphire crystals. Opt Spectrosc 2006, 101(3):402-409.
  
  185. Kunze A, Tseng P, Godzich C, Murray C, Caputo A, Schweizer FE, Di Carlo D. Engineering cortical neuron polarity with nanomagnets on a chip. ACS Nano 2015, 9(4):3664-3676.
  
  186. Kurzawski P., Hagleitner C., Hierlemann A. Detection and discrimination capabilities of a multitransducer single-chip gas sensor system. Anal Chem 2006, 78(19):6910-6920.
  
  187. Kwiatkowska EJ, Franz BA, Meister G, McClain CR, Xiong X. Cross calibration of ocean-color bands from moderate resolution imaging spectroradiometer on Terra platform. Appl Opt 2008, 47(36):6796-6810.
  
  188. Lee HS. DNA chip data mining. Exp Mol Med 2001, 33(1):151-156.
  
  189. Lee J, Choi JH, Kim HJ. Human gut-on-a-chip technology: will this revolutionize our understanding of IBD and future treatments? Expert Rev Gastroenterol Hepatol 2016, 10(8):883-885.
  
  190. Lee JB, Sung JH. Organ-on-a-chip technology and microfluidic whole-body models for pharmacokinetic drug toxicity screening. Biotechnol J 2013, 8(11):1258-1266.
  
  191. Lehman JH, Hurst KE, Radojevic AM, Dillon AC, Osgood RM. Multiwall carbon nanotube absorber on a thin-film lithium niobate pyroelectric detector. Opt Lett 2007, 32(7):772-774.
  
  192. Lehman JH, Radojevic AM, Osgood RM, Levy M, Pannell CN. Fabrication and evaluation of a freestanding pyroelectric detector made from single-crystal LiNbO3 film. Opt Lett 2000, 25(22):1657-1659.
  
  193. Li G, Lin J. Recent progress in low-voltage cathodoluminescent materials: synthesis, improvement and emission properties. Chem Soc Rev 2014, 43(20):7099-7131.
  
  194. Li S, Li Y, Jiang M, Ji S, Luo H, Gao Y, Jin P. Preparation and characterization of self-supporting thermochromic films composed of VO2(M)SiO2 Nanofibers. ACS Appl Mater Interfaces 2013, 5(14):6453-6457.
  
  195. Liberts G, Ivanovs G, Dimza V, Firsovs A, Tamanis E. Advanced Thermo-Optical Materials for Micro-Optical Applications. Opt Rev 2005, 12(2):135-139
  
  196. Lillehoj PB, Huang MC, Truong N, Ho CM. Rapid electrochemical detection on a mobile phone. Lab Chip 2013, 13(15):2950-2955.
  
  197. Lindsey BD, Light ED, Nicoletto HA, Bennett ER, Laskowitz DT, Smith SW. The ultrasound brain helmet: new transducers and volume registration for in vivo simultaneous multi-transducer 3-D transcranial imaging. IEEE Trans Ultrason Ferroelectr Freq Control 2011, 58(6):1189-1202.
  
  198. Ling S, Gao T, Liu J, Li Y, Zhou J, Li J, Zhou C, Tu C, Han F, Ye X. The fabrication of an olfactory receptor neuron chip based on planar multi-electrode array and its odor-response analysis. Biosens Bioelectron 2010, 26(3):1124-1128.
  
  199. Liu H, Truscott BS, Ashfold MN. Determination of Stark parameters by cross-calibration in a multi-element laser-induced plasma. Sci Rep 2016, 6:25609.
  
  200. Liu HC, Chen CY, Liu YT, Chu CB, Liang DC, Shih LY, Lin CJ. Cross-generation and cross-laboratory predictions of Affymetrix microarrays by rank-based methods. J Biomed Inform 2008, 41(4):570-579.
  
  201. Liu HC, Peng PC, Hsieh TC, Yeh TC, Lin CJ, Chen CY, Hou JY, Shih LY, Liang DC. Comparison of feature selection methods for cross-laboratory microarray analysis. IEEE/ACM Trans Comput Biol Bioinform 2013, 10(3):593-604.
  
  202. Liu K, Lepin EJ, Wang MW, Guo F, Lin WY, Chen YC, Sirk SJ, Olma S, Phelps ME, Zhao XZ, Tseng HR, Michael van Dam R, Wu AM, Shen CK. Microfluidic-based 18F-labeling of biomolecules for immuno-positron emission tomography. Mol Imaging 2011, 10(3):168-176, 1-7.
  
  203. Liu X, Padilla WJ. Thermochromic Infrared Metamaterials. Adv Mater 2016, 28(5):871-875.
  
  204. Lo SC, Lin EH, Wei PK, Tsai WS. A compact imaging spectroscopic system for biomolecular detections on plasmonic chips. Analyst 2016, 141(21):6126-6132.
  
  205. Loiko PA, Yumashev KV, Kuleshov NV, Pavlyuk AA. Thermo-optical properties of pure and Yb-doped monoclinic KY(WO4)2 crystals. Appl Phys B 2012, 106(3):663-668
  
  206. Lü F, Gao L, Ding L, Jiang L, Fang Y. Spacer layer screening effect: a novel fluorescent film sensor for organic copper(II) salts. Langmuir 2006, 22(2):841-845.
  
  207. Lupinek C, Wollmann E, Baar A, Banerjee S, Breiteneder H, Broecker BM, Bublin M, Curin M, Flicker S, Garmatiuk T, Hochwallner H, Mittermann I, Pahr S, Resch Y, Roux KH, Srinivasan B, Stentzel S, Vrtala S, Willison LN, Wickman M, Lødrup-Carlsen KC, Antó JM, Bousquet J, Bachert C, Ebner D, Schlederer T, Harwanegg C, Valenta R. Advances in allergen-microarray technology for diagnosis and monitoring of allergy: the MeDALL allergen-chip. Methods 2014, 66(1):106-119.
  
  208. Malashko YI, Rudnitskii YP. Thermooptical distortions in liquid, inorganic luminophors. J Appl Spec 1974, 20(1):104-106.
  
  209. Maltsev EI, Prokhorov VV, Perelygina OM, Lypenko DA, Vannikov AV. Electroluminescent nanocomposites based on molecular crystals for polymer optoelectronics. Part 1. Inorg Mater: Appl Res 2011, 2(4):325-332.
  
  210. Maltsev EI, Prokhorov VV, Perelygina OM, Lypenko DA, Vannikov AV. Electroluminescent nanocomposites based on molecular crystals for polymer optoelectronics. Part 2. Inorg Mater: Appl Res 2011, 2(4):333-343.
  
  211. Mandenius CF, Hagman A, Dunas F, Sundgren H, Lundström I. A multisensor array for visualizing continuous state transitions in biopharmaceutical processes using principal component analysis. Biosens Bioelectron 1998, 13(2):193-199.
  
  212. Mao Y, Macleod HA, Balasubramanian K. Magnetooptical thin film optical constants measurement using surface plasmon resonances. Appl Opt 1989, 28(14):2914-2917.
  
  213. Marchesini GR, Koopal K, Meulenberg E, Haasnoot W, Irth H. Spreeta-based biosensor assays for endocrine disruptors. Biosens Bioelectron 2007, 22(9-10):1908-1915.
  
  214. Marsano A, Conficconi C, Lemme M, Occhetta P, Gaudiello E, Votta E, Cerino G, Redaelli A, Rasponi M. Beating heart on a chip: a novel microfluidic platform to generate functional 3D cardiac microtissues. Lab Chip 2016, 16(3):599-610.
  
  215. März A, Bocklitz T, Popp J. Online-calibration for reliable and robust lab-on-a-chip surface enhanced Raman spectroscopy measurement in a liquid/liquid segmented flow. Anal Chem 2011, 83(21):8337-8340.
  
  216. Mazumder MM, Chen G, Kindlmann PJ, Chang RK, Gillespie JB. Temperature-dependent wavelength shifts of dye lasing in microdroplets with a thermochromicadditive. Opt Lett 1995, 20(16):1668.
  
  217. Meng L, Deng Z, Niu L, Li F, Yan F, Wu J, Cai F, Zheng H. A Disposable Microfluidic Device for Controlled Drug Release from Thermal-Sensitive Liposomes by High Intensity Focused Ultrasound. Theranostics 2015, 5(11):1203-1213.
  
  218. Mercurio A, Di Giorgio A, Cioci P. Open-source implementation of monitoring and controlling services for EMS/SCADA systems by means of web services—IEC 61850 and IEC 61970 standards. IEEE Trans Power Delivery 2009, 24(3):1148-1153.
  
  219. Meshkov BB, Ionov DS, Koshkin AV, Alfimov MV, Livshits VA. Investigation of volatile aliphatic and aromatic amine detection using a fluorescent pH indicator ethyl eosin in polymer matrices. NIR 2014, 9(5-6):237-244.
  
  220. Meyer GJ. The Rorschach and MMPI: toward a more scientifically differentiated understanding of cross-method assessment. J Pers Assess 1996, 67(3):558-578.
  
  221. Mielczarek WS, Obaje EA, Bachmann TT, Kersaudy-Kerhoas M. Microfluidic blood plasma separation for medical diagnostics: is it worth it? Lab Chip 2016, 16(18):3441-3448.
  
  222. Mikhnov SA. Radiative-impurity color centers in lithium fluoride laser crystals doped with Na and OH. J Appl Spectr 1996, 63(2):244-248.
  
  223. Millet LJ, Stewart ME, Nuzzo RG, Gillette MU. Guiding neuron development with planar surface gradients of substrate cues deposited using microfluidic devices. Lab Chip 2010, 10(12):1525-1535.
  
  224. Mills A, Yusufu D. Highly CO2 sensitive extruded fluorescent plastic indicator film based on HPTS. Analyst 2016, 141(3):999-1008.
  
  225. Milojkovic P, Christensen MP, Haney MW. Trade-offs between lens complexity and real estate utilization in a free-space multichip global interconnection module. J Opt Soc Am A Opt Image Sci Vis 2006, 23(7):1787-1795.
  
  226. Mistry M, Pavlidis P. A cross-laboratory comparison of expression profiling data from normal human postmortem brain. Neuroscience 2010, 167(2):384-395.
  
  227. Moura RP, Gopalakrishnan N, Ibrahim H, Haug M, Halaas O. The intercell dynamics of T cells and dendritic cells in a lymph node-on-a-chip flow device. Lab Chip 2016, 16(19):3728-3740.
  
  228. Mousavi SSA, De Ferrari F, Zhang YS, Nabavinia M, Binth Mohammad N, Ryan J, Pourmand A, Laukaitis E, Banan Sadeghian R, Nadhman A, Shin SR, Nezhad AS, Khademhosseini A, Dokmeci MR. A microfluidic optical platform for real-time monitoring of pH and oxygen in microfluidic bioreactors and organ-on-chip devices. Biomicrofluidics 2016, 10(4):044111.
  
  229. Moya JM, Araujo A, Banković Z, de Goyeneche JM, Vallejo JC, Malagón P, Villanueva D, Fraga D, Romero E, Blesa J. Improving Security for SCADA Sensor Networks with Reputation Systems and Self-Organizing Maps. Sensors (Basel) 2009, 9(11):9380-9397.
  
  230. Moyle JT. A Kynar piezoelectric film respirometer. Anaesthesia 1989, 44(4):332-334.
  
  231. Moyles TP, Schneider DR, Erlandson RF. An automated microprocessor-controlled data collection device for use with the Technicon AutoAnalyzer system. J Pharmacol Methods 1982, 8(3):225-230.
  
  232. Nakamoto K, Kurita R, Niwa O. One-chip biosensor for simultaneous disease marker/calibration substance measurement in human urine by electrochemical surface plasmon resonance method. Biosens Bioelectron 2010, 26(4):1536-1542.
  
  233. Nakamura N, Amao Y. Optical sensor for carbon dioxide combining colorimetric change of a pH indicator and a reference luminescent dye. Analyt Bioanalyt Chem 2003, 376(5): 642-646.
  
  234. Nazarathy M, Simony E. Generalized Stokes parameters shift keying approach to multichip differential phase encoded optical modulation formats. Opt Lett 2006, 31(4):435-437.
  
  235. Nedosekin DA, Kononets MY, Proskurnin MA, Chaikovskii TY, Lisichkin GV. Potential of thermo-optical methods for the study of molecular layers bonded to a flat glass surface. J Anal Chem 2007, 62(2):126-135.
  
  236. Nemecz G, Fontaine RN, Schroeder F. A fluorescence and radiolabel study of sterol exchange between membranes. Biochim Biophys Acta 1988, 943(3):511-521.
  
  237. Nguyen J, Wei Y, Zheng Y, Wang C, Sun Y. On-chip sample preparation for complete blood count from raw blood. Lab Chip 2015, 15(6):1533-1544.
  
  238. Nikolaidis MG, Kyparos A, Dipla K, Zafeiridis A, Sambanis M, Grivas GV, Paschalis V, Theodorou AA, Papadopoulos S, Spanou C, Vrabas IS. Exercise as a model to study redox homeostasis in blood: the effect of protocol and sampling point. Biomarkers 2012, 17(1):28-35.
  
  239. Notchenko A, Gradov O. Spectrozonal lab-on-a-chip with RF broadcasting. Physics and Radioelectronics in Medicine and Ecology, III. DOI: 10.13140/2.1.4907.7127
  
  240. Notchenko AV, Gradov OV. Elementary morphometric labs-on-a-chip based on hemocytometric chambers with radiofrequency culture identification and relay of spectrozonal histochemical monitoring. Visualization, Image Processing and Computation in Biomedicine, 2013, 2(1). DOI: 10.1615/VisualizImageProcComputatBiomed.2013005968
  
  241. Nussbeck G, Soltani N, Denecke K. Making knowledge on healthcare technologies understandable: ontology for lab-on-a-chipsystems. Stud Health Technol Inform 2013, 192:972.
  
  242. Obraztsov AN, Kleshch VI, Smolnikova EA. A nano-graphite cold cathode for an energy-efficient cathodoluminescent light source. Beilstein J Nanotechnol 2013, 4:493-500.
  
  243. Odijk M, van der Meer AD, Levner D, Kim HJ, van der Helm MW, Segerink LI, Frimat JP, Hamilton GA, Ingber DE, van den Berg A. Measuring direct current trans-epithelial electrical resistance in organ-on-a-chip microsystems. Lab Chip 2015, 15(3):745-752.
  
  244. Oh JH, Oh JR, Park HK, Sung YG, Do YR. New paradigm of multi-chip white LEDs: combination of an InGaN blue LED and full down-converted phosphor-converted LEDs. Opt Express 2011, 19(Suppl 3):A270-А279.
  
  245. Orehov FK, Gradov OV. Spectral and fluorescent detection of the DNA. XNA cyclic code decoding on the selectively stained microscopic samples. International seminar “LIFE OF GENOMES”, Kazan, October 26-29, 2014 [p. 16]. DOI: 10.13140/2.1.4347.4889
  
  246. Gradov OV. Qualimetric Approach To Molecular Phylogenetics. Proc. NGS-2014, 6. DOI: 10.13140/RG.2.1.2703.0564
  
  247. Orehov FC, Gradov OV. In situ/real time analysis in frame of cobac, qspr, qsar and sbgn as a novel tool for the biosimilarity studies and physio-chemical prognostics in the biomedicine-assisted screening and experimental toxicology and allergology. J Bioanalysis Biomedicine 2015, 7(5):95.
  
  248. Orehov FC, Gradov OV. On-line/real time compatibility of cobac analysis, qspr, qsar and sbgn big data mining as a novel tool for physiochemical prognostics in the biomedicine-assisted screening and experimental toxicology and allergology. Journal of data mining in genomics and proteomics, 2015, 6(4):64.
  
  249. Orehov TC, Gradov OV. Hybridization of cobac, qspr / qsar and sbgn technologies: The unity of theory and practice for biomedical technique design and biochemical diagnostic information analysis. J Med Bioeng 2016, 5(2):128-132.
  
  250. Ostrovskaya VM, Davidovskii NV, Prokopenko OA, Man'shev DA. Rapid test determination of iron (II) in aqueous media by reagent indicator paper. J Anal Chem 2004, 59(9):882-884.
  
  251. Ostrovskaya VM, Reshetnyak EA, Nikitina NA, Panteleimonov AV, Kholin YV. A test method for determining total metals with an indicator paper and its performance characteristics. J Anal Chem 2004, 59(10):995-1001.
  
  252. Ozdemir E, Karacor M. Mobile phone based SCADA for industrial automation. ISA Trans 2006, 45(1):67-75.
  
  253. Paans AM, Lamotte DW. Sensitivity and cross calibration. Eur J Nucl Med 1989, 15(11):756-760.
  
  254. Pálfalvi L, Hebling J. Z-scan study of the thermo-optical effect. Appl Phys B 2004, 78(6):775-780
  
  255. Pan T, Xu Y. Mobile medicine: can emerging mobile technologies enable patient-oriented medicine? Ann Biomed Eng 2014, 42(11):2203-2204.
  
  256. Pan W, Wang H, Yang L, Yu Z, Li N, Tang B. Ratiometric Fluorescence Nanoprobes for Subcellular pH Imaging with a Single-Wavelength Excitation in Living Cells. Anal Chem 2016, 88(13):6743-6748.
  
  257. Panaro NJ, Lou XJ, Fortina P, Kricka LJ, Wilding P. Surface effects on PCR reactions in multichip microfluidic platforms. Biomed Microdevices 2004, 6(1):75-80.
  
  258. Papp A, Harms H. Magnetooptical current transformer. 1: Principles. Appl Opt 1980, 19(22):3729-3734.
  
  259. Park J, Sunkara V, Kim TH, Hwang H, Cho YK. Lab-on-a-disc for fully integrated multiplex immunoassays. Anal Chem 2012, 84(5):2133-2140.
  
  260. Park S, Yoon YS, A study on the radiation resistance of CdWO4 thin-film scintillators deposited by using an electron-beam physical vapor deposition method. J Korean Phys Soc 2016, 69(5):734-738.
  
  261. Parker CN, Schreyer SK. Application of chemoinformatics to high-throughput screening: practical considerations. Methods Mol Biol 2004, 275:85-110.
  
  262. Parker CW, Koch D, Huber MM, Falkenhein SF. Incorporation of radiolabel from [1-14C]5-hydroperoxy-eicosatetraenoic acid into slow reacting substance. Biochem Biophys Res Commun 1980, 94(4):1037-1043.
  
  263. Paulsson NJ, Winquist F. Analysis of breath alcohol with a multisensor array: instrumental setup, characterization and evaluation. Forensic Sci Int 1999, 105(2):95-114.
  
  264. Pavot W, Diener E, Colvin CR, Sandvik E. Further validation of the Satisfaction with Life Scale: evidence for the cross-method convergence of well-being measures. J Pers Assess 1991, 57(1):149-161.
  
  265. Pedersen JF, Northeved A. An ultrasonic multitransducer scanner for real-time heart imaging. J Clin Ultrasound 1977, 5(1):11-15.
  
  266. Pedersen JF. Percutaneous puncture guided by ultrasonic multitransducer scanning. J Clin Ultrasound 1977, 5(3):175-177.
  
  267. Perestrelo AR, Águas AC, Rainer A, Forte G. Microfluidic Organ/Body-on-a-Chip Devices at the Convergence of Biology and Microengineering. Sensors 2015, 15(12):31142-31170.
  
  268. Pierzchalski A, Hebeisen M, Mittag A, Bocsi J, Di Berardino M, Tarnok A. Label-free hybridoma cell culture quality control by a chip-based impedance flow cytometer. Lab Chip 2012, 12(21):4533-4543.
  
  269. Poto L, Gabrieli J, Crowhurst S, Agostinelli C, Spolaor A, Cairns WR, Cozzi G, Barbante C. Cross calibration between XRF and ICP-MS for high spatial resolution analysis of ombrotrophic peat cores for palaeoclimatic studies. Anal Bioanal Chem 2015, 407(2):379-385.
  
  270. Pouteau E, Piguet-Welsch C, Berger A, Fay LB. Determination of cholesterol absorption in humans: from radiolabel to stable isotope studies. Isotopes Environ Health Stud 2003, 39(4):247-257.
  
  271. Powell A. Democratizing production through open source knowledge: from open software to open hardware. Media, Culture & Society 2012, 34(6):691-708.
  
  272. Pridie RB, Knight E, Bom N. A new development in ultrasound, using a multi-transducer technique. Br Heart J 1974, 36(4):396.
  
  273. Qazi IA, Awan MA, Baig MA. Development of thermochromic strips as a water pasteurization indicator. J Environ Sci 2003, 15(6):863-864.
  
  274. Qian G, Wang ZY. Near-infrared thermochromic diazapentalene dyes. Adv Mater 2012, 24(12):1582-1588.
  
  275. Rafeie M, Zhang J, Asadnia M, Li W, Warkiani ME. Multiplexing slanted spiral microchannels for ultra-fast blood plasma separation. Lab Chip 2016, 16(15):2791-2802
  
  276. Ramazonov PE, Shaposhnikov AN. 110-kV electroluminescent voltmeter. Sov Phys Journ 1972, 15(7):1047-1049.
  
  277. Reif R. The body-on-a-chip concept: possibilities and limitations. EXCLI J 2014, 13:1283-1285.
  
  278. Rensch C, Lindner S, Salvamoser R, Leidner S, Böld C, Samper V, Taylor D, Baller M, Riese S, Bartenstein P, Wängler C, Wängler B. A solvent resistant lab-on-chip platform for radiochemistry applications. Lab Chip 2014, 14(14):2556-2564.
  
  279. Rincón-López JA, Fernández-Benavides DA, Giraldo-Betancur AL, Cruz-Muñoz B, Riascos H, Muñoz-Saldaña J. Bi4Si3O12 thin films for scintillator applications. Appl Phys A 2016, 122:429
  
  280. Rismani Yazdi S, Shadmani A, Bürgel SC, Misun PM, Hierlemann A, Frey O. Adding the 'heart' to hanging drop networks for microphysiological multi-tissue experiments. Lab Chip 2015, 15(21):4138-4147.
  
  281. Rodionov V, Shmidko I, Zolotovsky A, Kruchinin S. Electroluminescence of Y2O3: Eu and Y2O3: Sm films. Mater Sci Pol 2013, 31(2):232-239.
  
  282. Rosenthal M, Doblas D, Hernandez JJ, Odarchenko YI, Burghammer M, Di Cola E, Spitzer D, Antipov AE, Aldoshin LS, Ivanov DA. High-resolution thermal imaging with a combination of nano-focus X-ray diffraction and ultra-fast chip calorimetry. J Synchrotron Radiat 2014, 21(1):223-228.
  
  283. Rudenko MI, Kühn S, Lunt EJ, Deamer DW, Hawkins AR, Schmidt H. Ultrasensitive Qbeta phage analysis using fluorescence correlation spectroscopy on an optofluidic chip. Biosens Bioel Su JP, Chandwani R, Gao SS, Pechauer AD, Zhang M, Wang J, Jia Y, Huang D, Liu G. Calibration of optical coherence tomography angiography with a microfluidic chip. J Biomed Opt 2016, 21(8):86015.
  
  284. Ryu H, Oh S, Lee HJ, Lee JY, Lee HK, Jeon NL. Engineering a Blood Vessel Network Module for Body-on-a-Chip Applications. J Lab Autom 2015, 20(3):296-301.
  
  285. Ryu H, Oh S, Lee HJ, Lee JY, Lee HK, Jeon NL. Engineering a Blood Vessel Network Module for Body-on-a-Chip Applications. J Lab Autom 2015, 20(3):296-301.
  
  286. Sadulenko AV, Kulagin NA. Spectroscopy of radiation-induced and structural defects in garnet crystals with V and Cr impurity ions. Opt Spetrosc 2009, 106(3):388-394.
  
  287. Samokhvalov MK, Ryabinov EB. Energy dissipation in thin-film electroluminescent structures. J Appl Spectrosc 1993, 58(5):381-384.
  
  288. Sanada A, Higashiyama K, Tanaka N. Active control of sound transmission through a rectangular panel using point-force actuators andpiezoelectric film sensors. J Acoust Soc Am 2015, 137(1):458-469.
  
  289. Savikhin FA, Vasil’chenko VP. Intraband luminescence spectra of insulators and semiconductors excited by pulsed electron beams or electric fields. Physics of the Solid State 1997, 39(4):535-539.
  
  290. Seeboth A, Lötzsch D, Ruhmann R, Muehling O. Thermochromic polymers – function by design. Chem Rev 2014, 114(5):3037-3068.
  
  291. Sellami L., Newcomb R.W. Multisensor smart system on a chip. Adv Exp Med Biol 2010, 680:701-708.
  
  292. Senbanjo R, Tipping T, Hunt N, Strang J. Injecting drug use via femoral vein puncture: preliminary findings of a point-of-care ultrasound service for opioid-dependent groin injectors in treatment. Harm Reduct J 2012, 9:6.
  
  293. Seyfarth F, Schliemann S, Wiegand C, Hipler UC, Elsner P. Diagnostic value of the ISAC(®) allergy chip in detecting latex sensitizations. Int Arch Occup Environ Health 2014, 87(7):775-781
  
  294. Shao X, Gao D, Chen Y, Jin F, Hu G, Jiang Y, Liu H. Development of a blood-brain barrier model in a membrane-based microchip for characterization of drug permeability and cytotoxicity for drug screening. Anal Chim Acta 2016, 934:186-193.
  
  295. Shaposhnikov AN, Ramazanov PE. 30-kV Electroluminescent voltmeter. Sov Phys Journ 1970, 13(2):273-274.
  
  296. Sharpe E, Bradley R, Frasco T, Jayathilaka D, Marsh A, Andreescu S. Metal oxide based multisensor array and portable database for field analysis of antioxidants. Sens Actuators B Chem 2014, 193:552-562.
  
  297. Shearstone JR, Allaire NE, Getman ME, Perrin S. Nondestructive quality control for microarray production. Biotechniques 2002, 32(5):1051-1052, 1054, 1056-1057.
  
  298. Shedden K, Rosania GR. Exploratory chemoinformatic analysis of cell type-selective anticancer drug targeting. Mol Pharm 2004, 1(4):267-280.
  
  299. Shedden K, Townsend LB, Drach JC, Rosania GR. A rational approach to personalized anticancer therapy: chemoinformatic analysis reveals mechanistic gene-drug associations. Pharm Res 2003, 20(6):843-847.
  
  300. Shelton DJ, Coffey KR, Boreman GD. Experimental demonstration of tunable phase in a thermochromic infrared-reflectarray metamaterial. Opt Express 2010, 18(2):1330-1335.
  
  301. Shi Y, Wen Y, Que M, Zhu G, Wang Y. Structure, photoluminescent and cathodoluminescent properties of a rare-earth free red emitting β-Zn3B2O6:Mn2+ phosphor. Dalt Trans 2014, 43(6):2418-2423.
  
  302. Shih WC, Wu MS. Theoretical investigation of the SAW properties of ferroelectric film composite structures. IEEE Trans Ultrason Ferroelectr Freq Control 1998, 45(2):305-316.
  
  303. Shimizu K, Karube K, Arakawa F, Nomura Y, Komatani H, Yamamoto K, Yoshida S, Aoki R, Sugita Y, Takeshita M, Ohshima K. Upregulation of CC chemokine ligand 18 and downregulation of CX3C chemokine receptor 1 expression in human T-cell leukemia virus type 1-associated lymph node lesions: Results of chemokine and chemokine receptor DNA chip analysis. Cancer Sci 2007, 98(12):1875-1880.
  
  304. Shimonomura K, Yagi T. A multichip aVLSI system emulating orientation selectivity of primary visual cortical cells. IEEE Trans Neural Netw 2005, 16(4):972-979.
  
  305. Shipley RA. Invention of the autoanalyzer. Science 1990, 249(4966):228.
  
  306. Shubin I, Zheng X, Thacker H, Djordjevic SS, Lin S, Amberg P, Yao J, Lexau J, Chang E, Liu F, Park N, Raj K, Ho R, Cunningham JE, Krishnamoorthy AV. Microring-based multi-chip WDM photonic module. Opt Express 2015, 23(10):13172-13184.
  
  307. Sia S. Cutting edge: thin, lightweight, foldable thermochromic displays on paper. Lab Chip 2009, 9(19):2763.
  
  308. Siegel AC, Phillips ST, Wiley BJ, Whitesides GM. Thin, lightweight, foldable thermochromic displays on paper. Lab Chip 2009, 9(19):2775-2781.
  
  309. Skardal A, Shupe T, Atala A. Organoid-on-a-chip and body-on-a-chip systems for drug screening and disease modeling. Drug Discov Today 2016, 21(9):1399-1411.
  
  310. Smith AD, Sumazin P, Das D, Zhang MQ. Mining ChIP-chip data for transcription factor and cofactor binding sites. Bioinformatics 2005, 21(Suppl. 1):i403-i412.
  
  311. Smith PJ, Vigneswaran S, Ngo HH, Nguyen HT, Ben-Aim R. Application of an automation system and a supervisory control and data acquisition (SCADA) system for the optimal operation of a membrane adsorption hybrid system. Water Sci Technol 2006, 53(4-5):179-184.
  
  312. Soloway S, Rosen P. Estimation of Basicity with a Novel Thermochromic Indicator. Science 1955, 121(3134):99-100.
  
  313. Song E, Choi JW. An on-chip chemiresistive polyaniline nanowire-based pH sensor with self-calibration capability. Conf Proc IEEE Eng Med Biol Soc 2012:4018-4021.
  
  314. Speck-Planche A, Cordeiro MN. Simultaneous virtual prediction of anti-Escherichia coli activities and ADMET profiles: Achemoinformatic complementary approach for high-throughput screening. ACS Comb Sci 2014, 16(2):78-84.
  
  315. Speck-Planche A, Kleandrova VV, Luan F, Cordeiro MN. Predicting multiple ecotoxicological profiles in agrochemical fungicides: a multi-specieschemoinformatic approach. Ecotoxicol Environ Saf 2012, 80:308-313.
  
  316. Srivastava SK, Shalabney A, Khalaila I, Grüner C, Rauschenbach B, Abdulhalim I. SERS biosensor using metallic nano-sculptured thin films for the detection of endocrine disrupting compound biomarker vitellogenin. Small 2014, 10(17):3579-3587.
  
  317. Stafford P, Brun M. Three methods for optimization of cross-laboratory and cross-platform microarray expression data. Nucleic Acids Res 2007, 35(10):e72.
  
  318. Sticker D, Rothbauer M, Lechner S, Hehenberger MT, Ertl P. Multi-layered, membrane-integrated microfluidics based on replica molding of a thiol-ene epoxy thermoset for organ-on-a-chip applications. Lab Chip 2015, 15(24):4542-4554.
  
  319. Stokes CL, Cirit M, Lauffenburger DA Physiome-on-a-Chip: The Challenge of "Scaling" in Design, Operation, and Translation of Microphysiological Systems. CPT Pharmacometrics Syst Pharmacol 2015, 4(10):559-562.
  
  320. Stokes TH, Han X, Moffitt RA, Wang MD. Extending microarray quality control and analysis algorithms to Illumina chip platform. Conf Proc IEEE Eng Med Biol Soc 2007, 2007:4637-4640.
  
  321. Sumida K, Saito K, Oeda K, Otsuka M, Tsujimura K, Miyaura H, Sekijima M, Nakayama K, Kawano Y, Kawakami Y, Asamoto M, Shirai T. Optimization of an animal test protocol for toxicogenomics studies (II); a cross-laboratory gene expression analysis. J Toxicol Sci 2007, 32(1):33-45.
  
  322. Sun M, Fang Q. High-throughput sample introduction for droplet-based screening with an on-chip integratedsampling probe and slotted-vial array. Lab Chip 2010, 10(21):2864-2868.
  
  323. Sung JH, Srinivasan B, Esch MB, McLamb WT, Bernabini C, Shuler ML, Hickman JJ. Using physiologically-based pharmacokinetic-guided "body-on-a-chip" systems to predict mammalian response to drug and chemical exposure. Exp Biol Med 2014, 239(9):1225-1239.
  
  324. Suzuki T, Yamamoto N. Cathodoluminescent spectroscopic imaging of surface plasmon polaritons in a 1-dimensional plasmonic crystal. Opt Express 2009, 17(26):23664-23671.
  
  325. Taira M, Nezu T, Sasaki M, Kimura S, Kagiya T, Harada H, Narushima T, Araki Y. Gene expression analyses of human macrophage phagocytizing sub-micro titanium particles byallergy DNA chip (Genopal). Biomed Mater Eng 2009, 19(1):63-70.
  
  326. Takahashi K, Hattori A, Suzuki I, Ichiki T, Yasuda K. Non-destructive on-chip cell sorting system with real-time microscopic image processing. J Nanobiotechnology 2004, 2(1):5.
  
  327. Tanaka Y, Sato K, Shimizu T, Yamato M, Okano T, Kitamori T. A micro-spherical heart pump powered by cultured cardiomyocytes. Lab Chip 2007, 7(2):207-212.
  
  328. Tebrock HE, Machle W. Exposure to europium-activated yttrium orthovanadate: a cathodoluminescent phosphor. J Occup Med 1968, 10(12):692-696.
  
  329. Thomas PC, Halter M, Tona A, Raghavan SR, Plant AL, Forry SP. A noninvasive thin film sensor for monitoring oxygen tension during in vitro cell culture. Anal Chem 2009, 81(22):9239-9246.
  
  330. Tokuda T, Sagawa Y, Noda T, Sasagawa K, Nishida K, Fujikado T, Ohta J. A CMOS-based multichip flexible retinal stimulator for simultaneous multi-site stimulation. Conf Proc IEEE Eng Med Biol Soc 2010:5883-5886.
  
  331. Tokuda T, Takeuchi Y, Noda T, Sasagawa K, Nishida K, Kitaguchi Y, Fujikado T, Tano Y, Ohta J. Light-controlled retinal stimulation on rabbit using CMOS-based flexible multi-chip stimulator. Conf Proc IEEE Eng Med Biol Soc 2009:646-649.
  
  332. Tokuda T, Takeuchi Y, Sagawa Y, Noda T, Sasagawa K, Nishida K, Fujikado T, Ohta J. Development and in vivo Demonstration of CMOS-Based Multichip Retinal Stimulator With Simultaneous Multisite Stimulation Capability. IEEE Trans Biomed Circuits Syst 2010, 4(6):445-453.
  
  333. Tolstukhin IA, Somov AS, Somov SV, Bolozdynya AI. Recording of relativistic particles in thin scintillators. Instr Exp Techn 2014, 57(6):658-661.
  
  334. Tothill P. Cross-calibration of DXA scanners for spine measurements. Osteoporos Int 1995, 5(5):410-411.
  
  335. Tottey W, Denonfoux J, Jaziri F, Parisot N, Missaoui M, Hill D, Borrel G, Peyretaillade E, Alric M, Harris HM, Jeffery IB, Claesson MJ, O'Toole PW, Peyret P, Brugère JF. The human gut chip "HuGChip", an explorative phylogenetic microarray for determining gut microbiome diversity at family level. PLoS One 2013, 8(5):e62544.
  
  336. Travagliati M, Girardo S, Pisignano D, Beltram F, Cecchini M. Easy monitoring of velocity fields in microfluidic devices using spatiotemporal image correlation spectroscopy. Anal Chem 2013, 85(17):8080-8084.
  
  337. Turner GR, Levine B. The functional neuroanatomy of classic delayed response tasks in humans and the limitations of cross-method convergence in prefrontal function. Neuroscience 2006, 139(1):327-337.
  
  338. Usui K, Tomizaki KY, Mihara H. A designed peptide chip: protein fingerprinting technology with a dry peptide array and statisticaldata mining. Methods Mol Biol 2009, 570:273-284.
  
  339. van der Helm MW, van der Meer AD, Eijkel JC, van den Berg A, Segerink LI. Microfluidic organ-on-chip technology for blood-brain barrier research. Tissue Barriers 2016, 4(1):e1142493.
  
  340. van Gent J, Lambeck PV, Kreuwel HJ, Gerritsma GJ, Sudhölter EJ, Reinhoudt DN, Popma TJ. Optimization of a chemooptical surface plasmon resonance based sensor. Appl Opt 1990, 29(19):2843-2849.
  
  341. Vermeulen J, Pattyn F, De Preter K, Vercruysse L, Derveaux S, Mestdagh P, Lefever S, Hellemans J, Speleman F, Vandesompele J. External oligonucleotide standards enable cross laboratory comparison and exchange of real-time quantitative PCR data. Nucleic Acids Res 2009, 37(21):e138.
  
  342. Vlasenko NA, Zyn'o SA. Investigation of the characteristics of low-voltage electroluminescent films of ZnS· Mn excited by pulses. J Appl Spectrosc 1966, 5(1):49-53.
  
  343. Vogelstein RJ, Mallik U, Culurciello E, Cauwenberghs G, Etienne-Cummings R. A multichip neuromorphic system for spike-based visual information processing. Neural Comput 2007, 19(9):2281-300.
  
  344. Wan F, Qiu LX, Zhou LL, Sun YQ, You Y. A fluorescent, photochromic and thermochromic trifunctional material based on a layered metal-viologen complex. Dalton Trans 2015, 44(42):18320-18323.
  
  345. Wang G, McCain ML, Yang L, He A, Pasqualini FS, Agarwal A, Yuan H, Jiang D, Zhang D, Zangi L, Geva J, Roberts AE, Ma Q, Ding J, Chen J, Wang DZ, Li K, Wang J, Wanders RJ, Kulik W, Vaz FM, Laflamme MA, Murry CE, Chien KR, Kelley RI, Church GM, Parker KK, Pu WT. Modeling the mitochondrial cardiomyopathy of Barth syndrome with induced pluripotent stem cell andheart-on-chip technologies. Nat Med 2014, 20(6):616-623.
  
  346. Wang HA, Grolimund D, Van Loon LR, Barmettler KD, Borca CN, Aeschlimann B, Günther D. High spatial resolution quantitative imaging by cross-calibration using Laser Ablation Inductively Coupled Plasma Mass Spectrometry and Synchrotron micro-X-ray Fluorescence technique. Chimia 2012, 66(4):223-228
  
  347. Wang R, Ni Y, Xu Y, Jiang Y, Dong C, Chuan N. Immuno-capture and in situ detection of Salmonella typhimurium on a novel microfluidic chip. Anal Chim Acta 2015, 853:710-717.
  
  348. Wang RV, Fong DD, Jiang F, Highland MJ, Fuoss PH, Thompson C, Kolpak AM, Eastman JA, Streiffer SK, Rappe AM, Stephenson GB. Reversible chemical switching of a ferroelectric film. Phys Rev Lett 2009, 102(4):047601.
  
  349. Wei L, Sweeney AJ, Sheng L, Fang Y, Kindy MS, Xi T, Gao BZ. Single-neuron axonal pathfinding under geometric guidance: low-dose-methylmercury developmental neurotoxicity test. Lab Chip 2014, 14(18):3564-3571.
  
  350. Weinstein JN. Searching for pharmacogenomic markers: the synergy between omic and hypothesis-driven research. Dis Markers 2001, 17(2):77-88.
  
  351. Wikswo JP, Block FE 3rd, Cliffel DE, Goodwin CR, Marasco CC, Markov DA, McLean DL, McLean JA, McKenzie JR, Reiserer RS, Samson PC, Schaffer DK, Seale KT, Sherrod SD. Engineering challenges for instrumenting and controlling integrated organ-on-chip systems. IEEE Trans Biomed Eng 2013, 60(3):682-690.
  
  352. Williams P, Önell A, Baldracchini F, Hui V, Jolles S, El-Shanawany T. Evaluation of a novel automated allergy microarray platform compared with three other allergy test methods. Clin Exp Immunol 2016, 184(1):1-10.
  
  353. Williamson A, Singh S, Fernekorn U, Schober A. The future of the patient-specific Body-on-a-chip. Lab Chip 2013, 13(18):3471-3480.
  
  354. Wróblewski W, Dybko A, Brzozka Z. Design of ion-sensing chemooptical interface for fiber optic chemical sensors. Chemia analityczna 1997, 42(6):757-766.
  
  355. Wu J, Zhang M, Li X, Wen W. Multiple and high-throughput droplet reactions via combination of microsampling technique and microfluidic chip. Anal Chem 2012, 84(22):9689-9693.
  
  356. Wu TF, Yen TM, Han Y, Chiu YJ, Lin EY, Lo YH. A light-sheet microscope compatible with mobile devices for label-free intracellular imaging and biosensing. Lab Chip 2014, 14(17):3341-3348.
  
  357. Xie Y, Wei X, Yang Q, Guan Z, Liu D, Liu X, Zhou L, Zhu Z, Lin Z, Yang C. A Shake&Read distance-based microfluidic chip as a portable quantitative readout device for highly sensitive point-of-care testing. Chem Commun 2016, 52(91):13377-13380.
  
  358. Yakovleva J, Davidsson R, Lobanova A, Bengtsson M, Eremin S, Laurell T, Emnéus J. Microfluidic enzyme immunoassay using silicon microchip with immobilized antibodies and chemiluminescence detection. Anal Chem 2002, 74(13):2994-3004.
  
  359. Yamada A, Vignes M, Bureau C, Mamane A, Venzac B, Descroix S, Viovy JL, Villard C, Peyrin JM, Malaquin L. In-mold patterning and actionable axo-somatic compartmentalization for on-chip neuron culture. Lab Chip 2016, 16(11):2059-2068.
  
  360. Yang JM, Sweeney DW. Infrared holography using the thermochromic material Cu2Hgl4. Appl Opt 1979, 18(14):2398-2406.
  
  361. Yang XQ, Yan L, Chen C, Hou JX, Li Y. Application of C12 multi-tumor marker protein chip in the diagnosis of gastrointestinal cancer: results of 329 surgical patients and suggestions for improvement. Hepatogastroenterology 2009, 56(94-95):1388-1394.
  
  362. Yang Y, Zhang C, Tang Z, Zhang X, Lu Z. Experimental studies on capturing human leukocytes with cell immuno-chip. Clin Chem 2005, 51(5):910-911.
  
  363. Yeoh HH, Lim LS, Woo HC. An enzyme-bound linamarin indicator paper strip for the semi-quantitative estimation of linamarin. Biotechnol Tech 1996, 10(5):319-322.
  
  364. Zabudskii EE, Samokhvalov MK. Modeling of the time characteristics of luminance in thin-film electroluminescent structures. Techn Phys Lett 2000, 26(1):29-30.
  
  365. Zaleta D, Fan J, Kress BC, Lee SH, Cheng CK. Optimum placement for optoelectronic multichip modules and the synthesis of diffractive optics formultichip module interconnects. Appl Opt 1994, 33(8):1444-1456.
  
  366. Zaytsev EV, Alexandrov PL, Gradov OV. Conventional patch-clamp techniques for multi-channel lab-on-a-chip signal registration from cell culture using real time target machine interfaces and in situ real-time digital signal processing. International Workshop “Structure and Functions of Biomembranes” (29 September – 3 October 2014), Dolgoprudny, pp. 158-159.
  
  367. Zhang J, Liu S, Yang P, Sui G. Rapid detection of algal toxins by microfluidic immunoassay. Lab Chip 2011, 11(20):3516-2522
  
  368. Zhang L, Yin X. Parallel separation of multiple samples with negative pressure sample injection on a 3-D microfluidic array chip. Electrophoresis 2007, 28(8):1281-1288.
  
  369. Zhang Q, Zhou M. A profluorescent ratiometric probe for intracellular pH imaging. Talanta 2015, 131:666-671.
  
  370. Zhang RC, Wang JJ, Zhang JC, Wang MQ, Sun M, Ding F, Zhang DJ, An YL. Coordination-Induced Syntheses of Two Hybrid Framework Iodides: A Thermochromic Luminescent Thermometer. Inorg Chem 2016, 55(15):7556-7563.
  
  371. Zhang W, Huang J, Zhou MF, Chen LY, Ding YP, Cao HJ, Geng YY, Wang SQ. Protein chip for detection of different HCV antibodies: preparation, quality control, and clinical evaluation. Mol Diagn 2005, 9(2):81-87.
  
  372. Zhang W, Zhang YS, Bakht SM, Aleman J, Shin SR, Yue K, Sica M, Ribas J, Duchamp M, Ju J, Sadeghian RB, Kim D, Dokmeci MR, Atala A, Khademhosseini A. Elastomeric free-form blood vessels for interconnecting organs on chip systems. Lab Chip 2016, 16(9):1579-1586.
  
  373. Zhang YS, Arneri A, Bersini S, Shin SR, Zhu K, Goli-Malekabadi Z, Aleman J, Colosi C, Busignani F, Dell'Erba V, Bishop C, Shupe T, Demarchi D, Moretti M, Rasponi M, Dokmeci MR, Atala A, Khademhosseini A. Bioprinting 3D microfibrous scaffolds for engineering endothelialized myocardium and heart-on-a-chip. Biomaterials 2016, 110:45-59.
  
  374. Zhao C, Chen RT. Performance consideration of three-dimensional optoelectronic interconnection for intra-multichip-module clock signal distribution. Appl Opt 1997, 36(12):2537-2544.
  
  375. Zheng F, Fu F, Cheng Y, Wang C, Zhao Y, Gu Z. Organ-on-a-Chip Systems: Microengineering to Biomimic Living Systems. Small 2016, 12(17):2253-2282.
  
  376. Zhou J, Niklason LE. Microfluidic artificial "vessels" for dynamic mechanical stimulation of mesenchymal stem cells. Integr Biol 2012, 4(12):1487-1497.
  
  377. Zhou M, Bao J, Tao M, Zhu R, Lin Y, Zhang X, Xie Y. Periodic porous thermochromic VO2(M) films with enhanced visible transmittance. Chem Commun 2013, 49(54):6021-6023.
  
  378. Zhou Y, Huang A, Li Y, Ji S, Gao Y, Jin P. Surface plasmon resonance induced excellent solar control for VO2SiO2 nanorods-based thermochromic foils. Nanoscale 2013, 5(19):9208-9213.
  
  379. Zienkiewicz A, Zienkiewicz K, Florido F, Marco FM, Romero PJ, Castro AJ, de Dios Alché J. Chip-based capillary electrophoresis profiling of olive pollen extracts used for allergy diagnosis and immunotherapy. Electrophoresis 2014, 35(18):2681-2685.
  
  380. Zimmermann T. Spectral imaging and linear unmixing in light microscopy. Adv Biochem Eng Biotechnol 2005, 95:245-265.es with negative pressure sample injection on a 3-D microfluidic array chip. Electrophoresis 2007, 28(8):1281-1288.<br /><br />369. Zhang Q, Zhou M. A profluorescent ratiometric probe for intracellular pH imaging. Talanta 2015, 131:666-671.<br /><br />370. Zhang RC, Wang JJ, Zhang JC, Wang MQ, Sun M, Ding F, Zhang DJ, An YL. Coordination-Induced Syntheses of Two Hybrid Framework Iodides: A Thermochromic Luminescent Thermometer. Inorg Chem 2016, 55(15):7556-7563.<br /><br />371. Zhang W, Huang J, Zhou MF, Chen LY, Ding YP, Cao HJ, Geng YY, Wang SQ. Protein chip for detection of different HCV antibodies: preparation, quality control, and clinical evaluation. Mol Diagn 2005, 9(2):81-87.<br /><br />372. Zhang W, Zhang YS, Bakht SM, Aleman J, Shin SR, Yue K, Sica M, Ribas J, Duchamp M, Ju J, Sadeghian RB, Kim D, Dokmeci MR, Atala A, Khademhosseini A. Elastomeric free-form blood vessels for interconnecting organs on chip systems. Lab Chip 2016, 16(9):1579-1586.<br /><br />373. Zhang YS, Arneri A, Bersini S, Shin SR, Zhu K, Goli-Malekabadi Z, Aleman J, Colosi C, Busignani F, Dell'Erba V, Bishop C, Shupe T, Demarchi D, Moretti M, Rasponi M, Dokmeci MR, Atala A, Khademhosseini A. Bioprinting 3D microfibrous scaffolds for engineering endothelialized myocardium and heart-on-a-chip. Biomaterials 2016, 110:45-59.<br /><br />374. Zhao C, Chen RT. Performance consideration of three-dimensional optoelectronic interconnection for intra-multichip-module clock signal distribution. Appl Opt 1997, 36(12):2537-2544.<br /><br />375. Zheng F, Fu F, Cheng Y, Wang C, Zhao Y, Gu Z. Organ-on-a-Chip Systems: Microengineering to Biomimic Living Systems. Small 2016, 12(17):2253-2282.<br /><br />376. Zhou J, Niklason LE. Microfluidic artificial "vessels" for dynamic mechanical stimulation of mesenchymal stem cells. Integr Biol 2012, 4(12):1487-1497.<br /><br />377. Zhou M, Bao J, Tao M, Zhu R, Lin Y, Zhang X, Xie Y. Periodic porous thermochromic VO2(M) films with enhanced visible transmittance. Chem Commun 2013, 49(54):6021-6023.<br /><br />378. Zhou Y, Huang A, Li Y, Ji S, Gao Y, Jin P. Surface plasmon resonance induced excellent solar control for VO2SiO2 nanorods-based thermochromic foils. Nanoscale 2013, 5(19):9208-9213.<br /><br />379. Zienkiewicz A, Zienkiewicz K, Florido F, Marco FM, Romero PJ, Castro AJ, de Dios Alché J. Chip-based capillary electrophoresis profiling of olive pollen extracts used for allergy diagnosis and immunotherapy. Electrophoresis 2014, 35(18):2681-2685.<br /><br />380. Zimmermann T. Spectral imaging and linear unmixing in light microscopy. Adv Biochem Eng Biotechnol 2005, 95:245-265.</nowiki>)
• Tree planting preparation (Sadhana Forest method)  + (= FAQ & Troubleshooting? = == This pro … = FAQ & Troubleshooting? = == This procedure seems so simple! Is it applicable? == There are as many tree planting procedures as tree planters… What I understand is that sometimes, some people over-complicate procedures and stick to tricky standards without really understanding the reason behind those standards. What we learned during our PDC is to observe and interact with nature. As Narsanna Ji told us: “no one teaches a seed how to grow.”, same goes for trees! Trees grow in forest without engineered standards to support their growth. No need to overcomplicate things here. Nevertheless, your environment might be severely degraded and not friendly to your young tree… You might want to consider succession and pioneers: what can grow first in your harsh environment and benefit to other species later? Feel free to read our blogpost about the beautiful reforestation effort at Pebble Garden in Auroville, India to acknowledge how the grow soil and transformed a desert in a tropical evergreen forest without any external input, with nature observation. If your environment is severely degraded, you might want to prepare the tree planting zone. Feel free to refer to the procedure that Sadhana Forest recommends for severely degraded areas in Dry Tropical climates . == What about watering? == We recommend bottle irrigation or clay pot irrigation. Refer to the procedure about clay pot irrigation system for more information about this solution. Refer to the “Tree Planting Preparation (Sadhana Forest method)” procedure for more information about bottle-irrigation system. == Transplantation == Bear in mind that not all trees can be transplanted. Ask you local tree lover / tree expert for advice. In the nursery, we recommend you plant a lot of seeds in beds to select the best saplings for transplantation in pockets. This should allow you to increase the survival rate of young trees and, this should allow you to (re)use less pockets. = Go further… = Please share with us with your remarks, comments, improvements, achievements, etc. "Reforesting the earth is one of the few tasks left to us to express our humanity." (D. Holmgren) DIY tutorial “Tree planting (Aranya Agricultural Alternatives method)” procedure: http://wikifab.org/wiki/Tree_planting_(Aranya_Agricultural_Alternatives_method) DIY tutorial “Clay pot irrigation system (Aranya Agricultural Alternatives method)”: http://wikifab.org/wiki/Clay-pot-irrigation_system_(Aranya_Agricultural_Alternatives_method) Blogpost about Pebble Garden: https://sustainable-autonomy.weebly.com/blog/discover-auroville-pebble-garden Blogpost about the Permaculture Design Course at Aranaya Farm: https://sustainable-autonomy.weebly.com/blog/pdc-at-aranya-farm Learn more about our projects: https://sustainable-autonomy.weebly.com/ Follow us on Twitter: https://twitter.com/Sustainomy/ Subscribe to our newsletter: https://bit.ly/2L1bbFznomy/ Subscribe to our newsletter: https://bit.ly/2L1bbFz)
• Tree planting preparation (Sadhana Forest method)  + (= FAQ & Troubleshooting? = == This pro … = FAQ & Troubleshooting? = == This procedure seems so simple! Is it applicable? == There are as many tree planting procedures as tree planters… What I understand is that sometimes, some people over-complicate procedures and stick to tricky standards without really understanding the reason behind those standards. What we learned during our PDC is to observe and interact with nature. As Narsanna Ji told us: “no one teaches a seed how to grow.”, same goes for trees! Trees grow in forest without engineered standards to support their growth. No need to overcomplicate things here. Nevertheless, your environment might be severely degraded and not friendly to your young tree… You might want to consider succession and pioneers: what can grow first in your harsh environment and benefit to other species later? Feel free to read our blogpost about the beautiful reforestation effort at Pebble Garden in Auroville, India to acknowledge how the grow soil and transformed a desert in a tropical evergreen forest without any external input, with nature observation. If your environment is severely degraded, you might want to prepare the tree planting zone. Feel free to refer to the procedure that Sadhana Forest recommends for severely degraded areas in Dry Tropical climates . == What about watering? == We recommend bottle irrigation or clay pot irrigation. Refer to the procedure about clay pot irrigation system for more information about this solution. Refer to the “Tree Planting Preparation (Sadhana Forest method)” procedure for more information about bottle-irrigation system. == Transplantation == Bear in mind that not all trees can be transplanted. Ask you local tree lover / tree expert for advice. In the nursery, we recommend you plant a lot of seeds in beds to select the best saplings for transplantation in pockets. This should allow you to increase the survival rate of young trees and, this should allow you to (re)use less pockets. = Go further… = Please share with us with your remarks, comments, improvements, achievements, etc. "Reforesting the earth is one of the few tasks left to us to express our humanity." (D. Holmgren) DIY tutorial “Tree planting (Aranya Agricultural Alternatives method)” procedure: http://wikifab.org/wiki/Tree_planting_(Aranya_Agricultural_Alternatives_method) DIY tutorial “Clay pot irrigation system (Aranya Agricultural Alternatives method)”: http://wikifab.org/wiki/Clay-pot-irrigation_system_(Aranya_Agricultural_Alternatives_method) Blogpost about Pebble Garden: https://sustainable-autonomy.weebly.com/blog/discover-auroville-pebble-garden Blogpost about the Permaculture Design Course at Aranaya Farm: https://sustainable-autonomy.weebly.com/blog/pdc-at-aranya-farm Learn more about our projects: https://sustainable-autonomy.weebly.com/ Follow us on Twitter: https://twitter.com/Sustainomy/ Subscribe to our newsletter: https://bit.ly/2L1bbFznomy/ Subscribe to our newsletter: https://bit.ly/2L1bbFz)
• Tree planting (Aranya Agricultural Alternatives method)  + (= FAQ & Troubleshooting? = == This pro … = FAQ & Troubleshooting? = == This procedure seems so simple! Is it applicable? == There are as many tree planting procedures as tree planters… What I understand is that sometimes, some people over-complicate procedures and stick to tricky standards without really understanding the reason behind those standards. What we learned during our PDC is to observe and interact with nature. As Narsanna Ji told us: “no one teaches a seed how to grow.”, same goes for trees! Trees grow in forest without engineered standards to support their growth. No need to overcomplicate things here. Nevertheless, your environment might be severely degraded and not friendly to your young tree… You might want to consider succession and pioneers: what can grow first in your harsh environment and benefit to other species later? Feel free to read our blogpost about the beautiful reforestation effort at Pebble Garden in Auroville, India to acknowledge how the grow soil and transformed a desert in a tropical evergreen forest without any external input, with nature observation. If your environment is severely degraded, you might want to prepare the tree planting zone. Feel free to refer to the procedure that Sadhana Forest recommends for severely degraded areas in Dry Tropical climates . == What about watering? == We recommend bottle irrigation or clay pot irrigation. Refer to the procedure about clay pot irrigation system for more information about this solution. Refer to the “Tree Planting Preparation (Sadhana Forest method)” procedure for more information about bottle-irrigation system. == Transplantation == Bear in mind that not all trees can be transplanted. Ask you local tree lover / tree expert for advice. In the nursery, we recommend you plant a lot of seeds in beds to select the best saplings for transplantation in pockets. This should allow you to increase the survival rate of young trees and, this should allow you to (re)use less pockets. = Go further… = Please share with us with your remarks, comments, improvements, achievements, etc. ''"Reforesting the earth is one of the few tasks left to us to express our humanity."'' (D. Holmgren) DIY tutorial “Tree planting preparation (Sadhana Forest method)” procedure: [[Tree planting preparation (Sadhana Forest method)]] DIY tutorial “Clay pot irrigation system (Aranya method)”: [[Clay-pot-irrigation system (Aranya Agricultural Alternatives method)]] Blogpost about Pebble Garden: https://sustainable-autonomy.weebly.com/blog/discover-auroville-pebble-garden Blogpost about the Permaculture Design Course at Aranaya Farm: https://sustainable-autonomy.weebly.com/blog/pdc-at-aranya-farm Learn more about our projects: https://sustainable-autonomy.weebly.com/ Follow us on Twitter: https://twitter.com/Sustainomy/ Subscribe to our newsletter: https://bit.ly/2L1bbFzribe to our newsletter: https://bit.ly/2L1bbFz)
• Tree planting (Aranya Agricultural Alternatives method)  + (= FAQ & Troubleshooting? = == This pro … = FAQ & Troubleshooting? = == This procedure seems so simple! Is it applicable? == There are as many tree planting procedures as tree planters… What I understand is that sometimes, some people over-complicate procedures and stick to tricky standards without really understanding the reason behind those standards. What we learned during our PDC is to observe and interact with nature. As Narsanna Ji told us: “no one teaches a seed how to grow.”, same goes for trees! Trees grow in forest without engineered standards to support their growth. No need to overcomplicate things here. Nevertheless, your environment might be severely degraded and not friendly to your young tree… You might want to consider succession and pioneers: what can grow first in your harsh environment and benefit to other species later? Feel free to read our blogpost about the beautiful reforestation effort at Pebble Garden in Auroville, India to acknowledge how the grow soil and transformed a desert in a tropical evergreen forest without any external input, with nature observation. If your environment is severely degraded, you might want to prepare the tree planting zone. Feel free to refer to the procedure that Sadhana Forest recommends for severely degraded areas in Dry Tropical climates . == What about watering? == We recommend bottle irrigation or clay pot irrigation. Refer to the procedure about clay pot irrigation system for more information about this solution. Refer to the “Tree Planting Preparation (Sadhana Forest method)” procedure for more information about bottle-irrigation system. == Transplantation == Bear in mind that not all trees can be transplanted. Ask you local tree lover / tree expert for advice. In the nursery, we recommend you plant a lot of seeds in beds to select the best saplings for transplantation in pockets. This should allow you to increase the survival rate of young trees and, this should allow you to (re)use less pockets. = Go further… = Please share with us with your remarks, comments, improvements, achievements, etc. ''"Reforesting the earth is one of the few tasks left to us to express our humanity."'' (D. Holmgren) DIY tutorial “Tree planting preparation (Sadhana Forest method)” procedure: [[Tree planting preparation (Sadhana Forest method)]] DIY tutorial “Clay pot irrigation system (Aranya method)”: [[Clay-pot-irrigation system (Aranya Agricultural Alternatives method)]] Blogpost about Pebble Garden: https://sustainable-autonomy.weebly.com/blog/discover-auroville-pebble-garden Blogpost about the Permaculture Design Course at Aranaya Farm: https://sustainable-autonomy.weebly.com/blog/pdc-at-aranya-farm Learn more about our projects: https://sustainable-autonomy.weebly.com/ Follow us on Twitter: https://twitter.com/Sustainomy/ Subscribe to our newsletter: https://bit.ly/2L1bbFzribe to our newsletter: https://bit.ly/2L1bbFz)
• Harmony in the Garden: Sustainable Practices for Cultivating a Greener Future  + (= Harmony in the Garden: Sustainable Pract … = Harmony in the Garden: Sustainable Practices for Cultivating a Greener Future = Gardens have long been spaces of beauty and tranquility, offering a respite from the hustle and bustle of daily life. However, as our understanding of environmental issues deepens, there is a growing awareness of the need to cultivate gardens in a sustainable manner. By adopting sustainable practices, we can not only create harmonious outdoor spaces but also contribute to a greener future for our planet.
  == Introduction to Sustainable Gardening == Sustainable gardening is an approach to gardening that seeks to minimize environmental impact while maximizing the benefits of gardening for both humans and the planet. It involves using resources wisely, reducing waste, and promoting biodiversity. At its core, sustainable gardening is about working with nature rather than against it.
  == Water Conservation Techniques == Water is a precious resource, and conserving it in the garden is essential. There are several techniques gardeners can use to reduce water usage, such as installing drip irrigation systems, mulching to retain moisture, and collecting rainwater in barrels. Choosing drought-tolerant plants and grouping plants with similar water needs together can also help minimize water consumption. Composting Composting is nature's way of recycling organic matter, and it's an excellent practice for sustainable gardening. By composting kitchen scraps, yard waste, and other organic materials, gardeners can create nutrient-rich compost that improves soil structure and fertility. Composting also reduces the amount of waste sent to landfills and helps sequester carbon from the atmosphere.
  == Natural Pest Control == Chemical pesticides can harm beneficial insects, birds, and other wildlife, as well as contaminate soil and water. Sustainable gardeners opt for natural pest control methods, such as companion planting, which involves planting certain species together to repel pests or attract beneficial insects. Other strategies include using insecticidal soaps, neem oil, and homemade pest repellents made from garlic or hot peppers.
  == Organic Fertilization == Chemical fertilizers can leach into waterways and disrupt ecosystems. Organic fertilizers, on the other hand, nourish plants without harmful side effects. Compost, worm castings, and organic mulches enrich the soil with essential nutrients and improve its ability to retain moisture. Additionally, cover cropping and crop rotation can help replenish soil nutrients naturally and prevent nutrient depletion.
  == Native Plants and Biodiversity == Native plants are adapted to local climate and soil conditions, making them resilient and low-maintenance. By incorporating native plants into the garden, gardeners can support local ecosystems and provide habitat for native wildlife, including pollinators like bees and butterflies. Biodiversity is essential for a healthy garden ecosystem, so cultivating a variety of plants helps create a balanced and resilient environment.
  == Soil Health and Conservation == Healthy soil is the foundation of a thriving garden. Sustainable gardeners focus on building soil health through practices like adding organic matter, minimizing soil disturbance, and practicing crop rotation. Cover cropping helps prevent erosion and adds organic matter to the soil, while minimal tillage preserves soil structure and microbial diversity.
  == Reducing Waste and Recycling == Gardening often produces waste in the form of trimmings, packaging materials, and outdated equipment. Sustainable gardeners aim to minimize waste by reusing materials, recycling when possible, and composting organic matter. Upcycling old containers, tools, and garden ornaments not only reduces waste but also adds a creative touch to the garden. [https://zealux.com/product-category/zealux-air-to-water-heat-pump-manufacturer/ air to water heat pump manufacturer] == Energy-Efficient Gardening == Reducing energy consumption in the garden helps lower carbon emissions and decrease environmental impact. Sustainable gardeners opt for manual tools over powered ones whenever possible and use renewable energy sources like solar-powered garden lights. Maximizing natural light and strategically planting trees for shade can also help reduce energy use in the garden.
  == Community and Education == Sharing knowledge and resources with fellow gardeners is an essential aspect of sustainable gardening. Community gardens provide opportunities for collaboration and education, allowing people to learn from one another and work together to cultivate healthy, sustainable spaces. Participating in workshops, volunteering at local gardens, and supporting organizations dedicated to sustainable gardening can further promote environmental stewardship.
  == Organic Pest Management Techniques == Chemical pesticides not only harm pests but can also negatively impact beneficial insects, soil microbes, and human health. Sustainable gardeners employ organic pest management techniques to control pests while minimizing harm to the environment. One effective method is integrated pest management (IPM), which combines various strategies to prevent and manage pest problems. This includes regularly monitoring the garden for signs of pests, practicing crop rotation, and using physical barriers like row covers to protect plants. Additionally, encouraging natural predators such as ladybugs, lacewings, and birds can help keep pest populations in check. By using a combination of cultural, mechanical, and biological controls, gardeners can effectively manage pests while promoting a healthy garden ecosystem.
  == Sustainable Garden Design Principles == In addition to sustainable gardening practices, the design of the garden itself can contribute to its environmental impact. Sustainable garden design principles focus on creating functional, aesthetically pleasing spaces that work in harmony with nature. This includes considerations such as water efficiency, biodiversity, and habitat creation. Designing rain gardens or bioswales can help capture and filter rainwater, reducing runoff and replenishing groundwater supplies. Incorporating native plants and creating wildlife habitats like birdhouses and bee hotels promotes biodiversity and supports local ecosystems. Thoughtful placement of trees and shrubs can provide shade, reduce energy consumption, and create microclimates that support plant growth. By incorporating sustainable design principles into the garden, gardeners can create beautiful, resilient spaces that benefit both people and the planet.
  == Incorporating a Sustainable Swimming Pool == When adding a swimming pool to your garden, prioritize sustainability by opting for water-saving designs and energy-efficient filtration systems. Choose a pool size that minimizes water usage, utilize pool covers to reduce evaporation, and invest in energy-efficient pumps from [http://zealux.com/ leading heat pump manufacturers], filters, and pool heat pumps. Consider incorporating natural filtration methods such as aquatic plants or biofiltration zones to minimize the need for chemical treatments. Additionally, explore rainwater harvesting systems to supplement pool water supply and reduce environmental impact. By implementing these sustainable practices, you can enjoy a refreshing swimming pool while minimizing water and energy consumption in your garden.
  == Harnessing Renewable Energy with Zealux Heat Pumps == For an even more sustainable approach to pool heating in your garden, consider integrating a Zealux [https://zealux.com/product-category/inverboost-pool-heat-pump/ swimming pool heat pump] into your garden oasis. Zealux heat pumps utilize renewable energy from the air to efficiently heat your pool, significantly reducing energy consumption compared to traditional heating methods. By harnessing the power of the environment, Zealux heat pumps not only help minimize the carbon footprint of your pool but also align perfectly with the principles of sustainable gardening. With heat pumps from Zealux [http://zealux.com/ heat pump supplier], you can enjoy a warm and inviting pool while staying true to your commitment to environmental stewardship in your garden. In conclusion, sustainable gardening is about more than just growing plants—it's about cultivating a deeper connection to the natural world and taking responsibility for our impact on the environment. By embracing sustainable practices in the garden, we can create spaces of beauty and abundance while also contributing to a greener future for generations to come. tag: [https://zealux.com/product-category/zealux-air-to-water-heat-pump-manufacturer/ air to water heat pump] , [http://zealux.com/ ashp manufacturers] , [http://zealux.com/ heat pump manufacturers germany] , wärmepumpe schweizer hersteller,  wärmepumpen hersteller weltweit, marktführer wärmepumpen, wärmepumpen vergleich hersteller, deutsche wärmepumpenhersteller, beste wärmepumpen hersteller, wärmepumpen lieferantenpumpen vergleich hersteller, deutsche wärmepumpenhersteller, beste wärmepumpen hersteller, wärmepumpen lieferanten)
• Online Class Assignment Services  + (=== '''The Rise of Online Learning''' === … === '''The Rise of Online Learning''' === In today's fast-paced digital age, online learning has become increasingly popular, offering flexibility and convenience to students pursuing their academic goals. However, navigating through online classes and assignments can sometimes be challenging, especially for nursing students juggling multiple responsibilities. That's where [https://onlineclassassignment.com/ '''online class assignment'''] assistance services provide invaluable support and guidance. Online education has revolutionized the way students access and engage with course materials. With just a few clicks, students can attend lectures, participate in discussions, and complete assignments from the comfort of their homes or anywhere with an internet connection. This flexibility has made education more accessible to individuals with busy schedules or other commitments. === '''Challenges of Online Classes''' === While online learning offers numerous benefits, it also presents unique challenges. Many students struggle to stay organized, manage their time effectively, and maintain motivation without the structure of traditional classroom settings. Additionally, nursing students face the added pressure of mastering complex medical concepts and skills, often requiring hands-on training and clinical experience. === '''The Need for Assignment Assistance''' === Recognizing the need for support, online class help services have emerged to help students navigate the complexities of online education. These services offer various resources and support, including tutoring, study materials, and assignment assistance tailored to students' specific needs. === '''Tailored Support for Nursing Students''' === For nursing students, in particular, DNP capstone project writers and "Do my nursing assignment" services provide specialized assistance to tackle the unique challenges of nursing coursework. From writing research papers to preparing for Nurs FPX assessments, these services offer expert guidance to help students excel in their studies. === '''Empowering Students with Assignment Aid''' === By partnering with reliable assignment assistance services, students can alleviate stress, enhance their understanding of course materials, and improve their academic performance. Whether seeking clarification on complex topics or receiving feedback on assignments like [https://www.onlineclassassignment.com/nurs-fpx-4040-assessment-4-informatics-and-nursing-sensitive-quality-indicators/ '''nurs fpx 4040 assessment 4'''], having a reliable support system can make all the difference in a student's online learning journey. === '''Taking Your Online Class to the Next Level''' === In conclusion, online class assistance services serve as invaluable companions for students navigating the complexities of virtual learning. With their guidance and support, students can overcome challenges, stay on track with their coursework, and confidently achieve their academic goals. === '''Conclusion''' === In the ever-evolving online education landscape, having a reliable assignment assistance service can make all the difference. From navigating online classes to excelling in nursing assignments, these services empower students to reach their full potential and thrive academically. So why struggle alone when you can have a trusted companion to guide you every step of the way? Nursing FPX assessments are integral components of nursing education programs, designed to evaluate students' understanding, application, and competency in various nursing concepts and skills. These assessments cover a wide range of topics and are structured to assess students' knowledge and proficiency in different areas of nursing practice. Let's delve into the details of Nurs FPX assessments and explore how they contribute to the education and training of future nurses. === '''Overview of Nurs FPX Assessments''' === Nurs FPX assessments encompass a series of evaluations conducted throughout nursing education programs, from undergraduate to graduate levels. These assessments are designed to measure students' comprehension of nursing theories, clinical skills, critical thinking abilities, and ethical decision-making in healthcare settings. === '''Critical Components of Nurs FPX Assessments''' === # '''Nursing Concepts and Theories''': Nurs FPX assessments such as [https://onlineclassassignment.com/nurs-fpx-4900-assessment-5-intervention-presentation-and-capstone-video-reflection/ '''nurs fpx 4900 assessment 5'''] often include questions and tasks related to fundamental nursing concepts, such as patient assessment, nursing diagnosis, pharmacology, and therapeutic interventions. # '''Clinical Skills Proficiency''': Students are evaluated on their ability to perform various clinical skills, including patient care procedures, medication administration, wound care, and patient monitoring. # '''Critical Thinking and Problem-Solving''': Nurs FPX assessments assess students' critical thinking skills by presenting complex patient scenarios or clinical situations that require analysis, prioritization, and decision-making. # '''Evidence-Based Practice''': Students are expected to demonstrate an understanding of evidence-based practice principles by incorporating current research findings and best practices into their nursing care plans and interventions. # '''Communication and Interpersonal Skills''': Assessments may include components that evaluate students' communication skills, including therapeutic communication techniques, patient education, and collaboration with interdisciplinary healthcare teams. === '''Types of Nurs FPX Assessments''' === # '''Written Examinations''': These assessments typically consist of multiple-choice questions, short-answer questions, essays, and case studies to assess students' theoretical knowledge and understanding of nursing concepts. # '''Clinical Skills Competency Evaluations''': Students are evaluated on their proficiency in performing various clinical skills in simulated or real-life clinical settings, including patient assessments, medication administration, and nursing interventions. # '''Clinical Performance Evaluations''': Preceptors or clinical instructors assess students' clinical performance during supervised clinical rotations in healthcare facilities. Feedback is provided to help students improve their clinical practice skills. # '''Research Projects and Presentations''': Some Nurs FPX assessments may involve research projects, literature reviews, or evidence-based practice projects where students are required to critically analyze research findings and present their findings to their peers or faculty. === '''Importance of Nurs FPX Assessments''' === Nurs FPX assessments are crucial in preparing future nurses for professional practice by ensuring they possess the knowledge, skills, and competencies to deliver safe and effective patient care. These assessments provide students with opportunities to identify areas for improvement, receive constructive feedback, and refine their clinical practice skills under the guidance of experienced nursing educators and preceptors. === '''Conclusion''' === In summary, Nurs FPX assessments like [https://www.onlineclassassignment.com/nurs-fpx-4010-assessment-2-interview-and-interdisciplinary-issue-identification/ '''nurs fpx 4010 assessment 2'''] are essential for evaluating students' nursing knowledge, clinical skills, critical thinking abilities, and professional competencies. By assessing students' performance across various domains of nursing practice, these assessments contribute to developing competent, confident, and compassionate nurses prepared to meet the complex healthcare needs of diverse patient populations.onate nurses prepared to meet the complex healthcare needs of diverse patient populations.)
• Vogue and Amazon Fashion Unite  + (=== Discover the Best of American Fashion … === Discover the Best of American Fashion on Amazon === If you’re looking to freshen up your wardrobe while supporting a good cause, ''A Common Thread'' on Amazon Fashion offers an array of styles and designs that you won't find on mainstream retail platforms. You can explore pieces that bring unique perspectives to everyday fashion and discover new designers who are shaping the future of American style. Shopping through ''A Common Thread'' is a wonderful opportunity to embrace innovation and support the small businesses that keep the fashion industry vibrant. With Amazon’s ease of shopping and ''Vogue''’s expertly curated selections, there’s never been a better time to try something new. Take a moment to browse the storefront, explore collections from lesser-known designers, and see what speaks to you. With ''A Common Thread,'' you can enjoy the accessibility of Amazon while indulging in high-end fashion that supports talented American designers. [https://www.designsforcricut.com/blog/cricut-3d-love-stickers:-a-crafting-guide-for-creative-hearts 3d love stickers] [https://www.designsforcricut.com/blog/cricut-wine-stickers-for-bottles-create-custom-labels-for-your-wine-collection wine stickers for bottles] [https://www.designsforcricut.com/blog/cricut-merry-christmas-pictures-crafting-the-perfect-holiday-ornaments merry christmas pictures] [https://www.designsforcricut.com/blog/celebrate-new-year-with-cricut-crafting-stunning-designs-for-2024 happy new year best design] [https://www.designsforcricut.com/blog/cricut-maker-thank-you-card-designs-a-comprehensive-guide Cricut Maker thank you card designs]
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• Wikifab - Inscription et création d'un tutoriel  +
• Wikifab - Inscription et création d'un tutoriel  + (A lire aussi sur Wikifab : [https://wikifab.org/w/index.php/Wikifab:Creator_handbook Le Manuel du créateur].)
• Raccorder un radiateur électrique à un programmateur fil pilote  + (Article détaillé sur le tutoriel vidéo pré … Article détaillé sur le tutoriel vidéo présentant les différentes étapes pour [https://www.blog.123elec.com/raccorder-radiateur-et-programmateur-fil-pilote/ raccorder un radiateur électrique à un programmateur fil pilote]. Trouvez tout le matériel nécessaire à ce tutoriel sur [https://www.123elec.com 123elec.com]. Visionnez la [https://www.youtube.com/watch?v=eUUyiqOSwXc vidéo référence de ce tutoriel].UyiqOSwXc vidéo référence de ce tutoriel].)
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• Scénographie modulable et démontable  + (Association porteuse : exocean.org Merci au Kon ar Lab (Fab Lab de Concarneau) : www.konkarlab.bzh)
• Scénographie modulable et démontable  + (Association porteuse : exocean.org Merci au Kon ar Lab (Fab Lab de Concarneau) : www.konkarlab.bzh)
• Microscope x60 lasercut pour smartphone  + (Cette version est une adaptation simlpifié … Cette version est une adaptation simlpifiée du "Planctoscope - microscope DIY" développé par l'association Astrolabe Expéditions : [http://www.astrolabe-expeditions.org astrolabe-expeditions.org] Ce microscope est notamment utilisé dans le cadre du projet Ocean is Open porté par Explore : [https://twitter.com/oceanisopen twitter.com/oceanisopen]r.com/oceanisopen twitter.com/oceanisopen])
• Microscope x60 lasercut pour smartphone  + (Cette version est une adaptation simlpifié … Cette version est une adaptation simlpifiée du "Planctoscope - microscope DIY" développé par l'association Astrolabe Expéditions : [http://www.astrolabe-expeditions.org astrolabe-expeditions.org] Ce microscope est notamment utilisé dans le cadre du projet Ocean is Open porté par Explore : [https://twitter.com/oceanisopen twitter.com/oceanisopen]r.com/oceanisopen twitter.com/oceanisopen])
• Climatiseur solaire  + (Crédit : Jean-Jacques Valette / [https://w … Crédit : Jean-Jacques Valette / [https://www.wedemain.fr/Tuto-Comment-fabriquer-un-climatiseur-solaire_a3473.html We Demain] '''A voir aussi :''' * Tutoriels pour la [[Fabrication : Ventilateur USB|fabrication]] et le [[Ventilateur USB|montage d'un mini ventilateur USB]].[Ventilateur USB|montage d'un mini ventilateur USB]].)
• Climatiseur solaire  + (Crédit : Jean-Jacques Valette / [https://w … Crédit : Jean-Jacques Valette / [https://www.wedemain.fr/Tuto-Comment-fabriquer-un-climatiseur-solaire_a3473.html We Demain] '''A voir aussi :''' * Tutoriels pour la [[Fabrication : Ventilateur USB|fabrication]] et le [[Ventilateur USB|montage d'un mini ventilateur USB]].[Ventilateur USB|montage d'un mini ventilateur USB]].)
• Boisson Kombucha  + (Crédit : Jean-Jacques Valette, [https://www.wedemain.fr/Comment-fabriquer-du-Kombucha-le-soda-naturel-a-base-de-the_a1982.html We Demain] A voir aussi sur Wikifab)
• Boisson Kombucha  + (Crédit : Jean-Jacques Valette, [https://www.wedemain.fr/Comment-fabriquer-du-Kombucha-le-soda-naturel-a-base-de-the_a1982.html We Demain] A voir aussi sur Wikifab)
• Boisson Kéfir  + (Crédits Helen DZIRI, [https://www.wedemain.fr/Comment-faire-du-kefir-la-super-boisson-qui-vous-veut-du-bien_a3412.html We Demain.fr] '''Voir aussi''' * Le tutoriel de la [[Boisson Kombucha|boisson Kombucha]])
• Boisson Kéfir  + (Crédits Helen DZIRI, [https://www.wedemain.fr/Comment-faire-du-kefir-la-super-boisson-qui-vous-veut-du-bien_a3412.html We Demain.fr] '''Voir aussi''' * Le tutoriel de la [[Boisson Kombucha|boisson Kombucha]])
• Lampe en Carton façon voronoï  + (En mathématiques, un '''diagramme de Voron … En mathématiques, un '''diagramme de Voronoï''' est un découpage du plan (pavage) en cellules à partir d'un ensemble discret de points appelés « germes ». Chaque cellule enferme un seul germe, et forme l'ensemble des points du plan plus proches de ce germe que de tous les autres. La cellule représente en quelque sorte la « zone d'influence » du germe. Le diagramme doit son nom au mathématicien russe Gueorgui Voronoï (1868 - 1908), et est aussi appelé '''décomposition de Voronoï''', '''partition de Voronoï''', '''polygones de Voronoï''', '''tessellation de Dirichlet''' ou '''polygones de Thiessen'''. De manière plus générale, il représente une décomposition particulière d’un espace métrique déterminée par les distances à un ensemble discret d’objets de l’espace, en général un ensemble discret de points. ([https://fr.wikipedia.org/wiki/Diagramme_de_Vorono%C3%AF Wikipédia : Diagramme de Voronoï])o%C3%AF Wikipédia : Diagramme de Voronoï]))
• Lampe en Carton façon voronoï  + (En mathématiques, un '''diagramme de Voron … En mathématiques, un '''diagramme de Voronoï''' est un découpage du plan (pavage) en cellules à partir d'un ensemble discret de points appelés « germes ». Chaque cellule enferme un seul germe, et forme l'ensemble des points du plan plus proches de ce germe que de tous les autres. La cellule représente en quelque sorte la « zone d'influence » du germe. Le diagramme doit son nom au mathématicien russe Gueorgui Voronoï (1868 - 1908), et est aussi appelé '''décomposition de Voronoï''', '''partition de Voronoï''', '''polygones de Voronoï''', '''tessellation de Dirichlet''' ou '''polygones de Thiessen'''. De manière plus générale, il représente une décomposition particulière d’un espace métrique déterminée par les distances à un ensemble discret d’objets de l’espace, en général un ensemble discret de points. ([https://fr.wikipedia.org/wiki/Diagramme_de_Vorono%C3%AF Wikipédia : Diagramme de Voronoï])o%C3%AF Wikipédia : Diagramme de Voronoï]))
• Healthcurepills  + (Gabapentin has emerged as a pivotal agent … Gabapentin has emerged as a pivotal agent in the management of epilepsy, offering a unique mechanism of action that sets it apart from traditional antiepileptic drugs. This article delves into the clinical perspective of optimizing epilepsy care with Gabapentin, specifically focusing on the use of Gabapentin 400mg and 800mg dosages. By exploring the efficacy, safety, dosage considerations, and long-term strategies associated with Gabapentin in epilepsy treatment, we aim to provide healthcare professionals with a comprehensive guide to enhancing patient outcomes and quality of life in individuals living with epilepsy. == Introduction to Gabapentin in Epilepsy Treatment == Gabapentin, commonly known by the brand name Neurontin, is a medication utilized in the management of epilepsy. It belongs to the class of anticonvulsant drugs and is often prescribed as an adjunctive therapy to control seizures in individuals with epilepsy. === Overview of Gabapentin Mechanism of Action === Gabapentin exerts its antiepileptic effects by modulating calcium channels in the nervous system, thereby reducing excessive neuronal activity that can lead to seizures. By stabilizing electrical signaling in the brain, gabapentin helps in preventing abnormal bursts of electrical activity that characterize epileptic seizures. === Historical Context and Evolution in Epilepsy Care === Over the years, the understanding of epilepsy and its management has evolved significantly. The introduction of gabapentin in the late 20th century marked a milestone in epilepsy treatment, providing patients with additional options to improve seizure control and quality of life.
  

  [https://healthcurepills.com/product/gabapentin-400mg/ Gabapentin 400] mg is administered with other medications to control and prevent Epilepsy. In addition, people who have had shingles, a painful rash caused by the herpes zoster virus, might use it to relieve nerve discomfort. Gabapentin is also known as an anticonvulsant or an antiepileptic medication.

  == Efficacy and Safety of Gabapentin 400mg in Epilepsy Management == Gabapentin at a dosage of 400mg has shown efficacy in managing epilepsy, particularly as an adjunctive treatment in patients who experience partial seizures. Clinical studies have demonstrated its ability to reduce seizure frequency and improve overall seizure control. === Clinical Studies on Gabapentin 400mg in Epilepsy === Research has highlighted the effectiveness of gabapentin 400mg in reducing seizure activity and enhancing treatment outcomes for individuals with epilepsy. Its favorable tolerability profile makes it a valuable option for many patients. === Common Side Effects and Adverse Reactions === Despite its benefits, gabapentin 400mg may cause side effects such as dizziness, drowsiness, and gastrointestinal disturbances. Monitoring for adverse reactions and adjusting the dosage as needed are essential components of epilepsy management with gabapentin. == Exploring the Role of Gabapentin 800mg in Epilepsy Care == For some individuals with epilepsy, a higher dosage of gabapentin, such as 800mg, may be prescribed to achieve optimal seizure control. Understanding the comparative benefits and considerations of this dosage is crucial in personalized treatment planning. === Comparative Analysis with Lower Dosages === When evaluating the role of gabapentin 800mg in epilepsy care, comparison with lower dosages provides insights into the potential benefits of increased medication strength. Factors such as seizure frequency, tolerability, and individual response play a significant role in dosage selection. === Optimal Patient Profiles for Gabapentin 800mg === Certain patient populations, including those with refractory epilepsy or inadequate seizure control on lower doses, may benefit from gabapentin 800mg. Tailoring treatment plans to individual needs and response is key to optimizing epilepsy care with higher gabapentin dosages. == Dosage Considerations and Patient Selection == Determining the appropriate dosage of gabapentin for epilepsy management involves a thorough assessment of various factors that influence treatment efficacy and safety. === Factors Influencing Dosage Selection === Patient characteristics, seizure type, concomitant medications, and tolerability profile are among the factors that healthcare providers consider when selecting the appropriate gabapentin dosage. A personalized approach ensures that treatment aligns with individual needs and goals. === Individualized Treatment Approaches === Tailoring epilepsy care to each patient's unique circumstances and preferences is essential for optimizing treatment outcomes. Collaborative decision-making between healthcare providers and individuals with epilepsy promotes treatment adherence and overall well-being.
  

  [https://healthcurepills.com/product/gabapentin-800mg/ Gabapentin 800mg] is commonly used to treat certain forms of seizures and nerve pain. Its classification is anticonvulsant or antiepileptic drug. Gabapentin Tablets are also used to treat postherpetic neuralgia (nerve pain that occurs after shingles) and restless legs syndrome. The dosage of gabapentin Tablets varies depending on the illness being treated, the patient's medical history, and their response to the medication. Gabapentin pill 800mg is a relatively high dose, and it is vital that you follow your doctor's instructions exactly.

  == Managing Side Effects and Drug Interactions == Dealing with pesky side effects? Fear not! When taking Gabapentin 400mg or 800mg, there are strategies to keep those side effects at bay. Stay hydrated, move your body, and get your beauty sleep to help minimize common side effects like dizziness and drowsiness. Remember, gabapentin thrives on consistency, so stick to your prescribed schedule like your morning coffee ritual. Now, about interactions with other medications – think of it like a cocktail party. Some medications might not play nice with gabapentin, so it's crucial to inform your healthcare provider of all the drugs you're taking. They'll make sure that everyone gets along harmoniously in your body, reducing the risk of any unwanted interactions crashing the party. == Long-Term Treatment Strategies and Monitoring == In the marathon of epilepsy care, Gabapentin 400mg and 800mg are reliable running mates. Wondering about their long-term effectiveness and tolerance? Fear not, research shows that gabapentin can maintain its seizure-fighting powers over extended periods, with many patients developing a friendly tolerance to the medication. But how do you navigate this journey smoothly? Monitoring is key! Regular check-ins with your healthcare provider, blood tests, and perhaps a sprinkle of EEG monitoring can help track your progress and ensure that you're reaping the full benefits of your gabapentin regimen. == Case Studies and Clinical Outcomes == Let's dive into the real-world impact of Gabapentin in the realm of epilepsy care. Picture this – a patient, let's call them Gabby, who has seen a significant reduction in seizure frequency since adding Gabapentin into their treatment plan. Gabby's quality of life has soared, with fewer interruptions from uninvited seizures and more moments of serenity. These case studies paint a vivid picture of the practical applications of Gabapentin in epilepsy management. The proof is in the pudding – or should we say, in the Gabapentin.
  === Conclusion and Future Directions === In the grand finale of our Gabapentin saga, let's wrap up with a bow. Key findings reveal that Gabapentin 400mg and 800mg are valuable players in optimizing epilepsy care, offering a lifeline to those grappling with seizures. For future directions, keep an eye on the horizon for emerging research and potential innovations in the field of epilepsy treatment. Who knows what groundbreaking discoveries lie ahead, poised to revolutionize how we combat this neurological challenge. Stay curious, stay informed, and remember – Gabapentin's got your [https://wikifab.org/ back].us, stay informed, and remember – Gabapentin's got your [https://wikifab.org/ back].)
• Pince à salade Avengers  + (J'ai aussi fait une pince à salade plus cl … J'ai aussi fait une pince à salade plus classique ([[Salad tongs/fr|voir le tutoriel sur Wikifab]]). Découvrez ce tutoriel et plein d'autres choses géniales sur mon site perso (en anglais) : [https://www.iliketomakestuff.com/infinity-gauntlet-salad-tongs/ Iliketomakestuff.com].untlet-salad-tongs/ Iliketomakestuff.com].)
• Casque Godzilla  + (La plupart des fichiers sont proposés dans le dossier partagé. Les autres liens vers Sketchfab, 3d Builder, Slicer for Fusion 360 n'étant pas autorisé sur ce wiki, une recherche manuelle est nécessaire. Bonne création !!!)
• IKEA hack: la commode TARVA  + (La texture en losange des tiroirs nous a été inspirée de [http://www.superfront.com/eu/ superfront.com] '''Voir aussi''' * Notre tutoriel [[Bougeoir structuré en cuivre et bois]])
• IKEA hack: la commode TARVA  + (La texture en losange des tiroirs nous a été inspirée de [http://www.superfront.com/eu/ superfront.com] '''Voir aussi''' * Notre tutoriel [[Bougeoir structuré en cuivre et bois]])
• Canon à bonbons en tube de PVC  + (La vidéo de démonstration a été réalisée par Experimentboy lors de son tour de la Maker faire. Allez voir [https://www.youtube.com/user/experimentboyTV sa chaine youtube ici], si jamais vous ne connaissez pas ! Il fait des tas d’expériences rigolotes :))
• Canon à bonbons en tube de PVC  + (La vidéo de démonstration a été réalisée par Experimentboy lors de son tour de la Maker faire. Allez voir [https://www.youtube.com/user/experimentboyTV sa chaine youtube ici], si jamais vous ne connaissez pas ! Il fait des tas d’expériences rigolotes :))
• Théâtre de marionnettes  + (Le projet [http://zbis.fr/maif-zbis/ sur le blog de zBis]. Le projet dans un [https://www.ouest-france.fr/pays-de-la-loire/montaigu-85600/un-mini-theatre-fabrique-par-les-eleves-avec-le-zbis-5715830 article du Sud-Ouest].)
• Théâtre de marionnettes  + (Le projet [http://zbis.fr/maif-zbis/ sur le blog de zBis]. Le projet dans un [https://www.ouest-france.fr/pays-de-la-loire/montaigu-85600/un-mini-theatre-fabrique-par-les-eleves-avec-le-zbis-5715830 article du Sud-Ouest].)
• Box d'ambiance lumineuse qui se cale sur un seuil de temperature  + (Lien vers générateur de boite : http://car … Lien vers générateur de boite : http://carrefour-numerique.cite-sciences.fr/fablab/wiki/doku.php?id=projets:generateur_de_boites bouton à imprimer en 3D (vectoriel et gcode) : https://www.dropbox.com/sh/a2uhzm7ui1ucgwl/AACBwlyigA6JCmAIx2waKKbba?dl=0 code arduino : https://www.dropbox.com/sh/lr4hm2f6que10nl/AAB00iEyUAQdWZkaBqeaLqRBa?dl=0m2f6que10nl/AAB00iEyUAQdWZkaBqeaLqRBa?dl=0)
• Box d'ambiance lumineuse qui se cale sur un seuil de temperature  + (Lien vers générateur de boite : http://car … Lien vers générateur de boite : http://carrefour-numerique.cite-sciences.fr/fablab/wiki/doku.php?id=projets:generateur_de_boites bouton à imprimer en 3D (vectoriel et gcode) : https://www.dropbox.com/sh/a2uhzm7ui1ucgwl/AACBwlyigA6JCmAIx2waKKbba?dl=0 code arduino : https://www.dropbox.com/sh/lr4hm2f6que10nl/AAB00iEyUAQdWZkaBqeaLqRBa?dl=0m2f6que10nl/AAB00iEyUAQdWZkaBqeaLqRBa?dl=0)
• How to Make Amazon Music Louder  + (Listening to your favorite music on Amazon … Listening to your favorite music on Amazon Music should be an enjoyable and immersive experience. By following these tips, you can make your music louder and enhance the quality of your listening sessions. Whether you adjust the volume settings, explore equalizer options, invest in external speakers, or simply upgrade your Amazon Music subscription, you have the power to take control of your music's volume and enjoy it to the fullest. So, turn up the volume, let the music take over, and immerse yourself in the world of sound. Refer to More Details: https://www.audfree.com/amazon-music-tips/make-amazon-music-louder.htmln-music-tips/make-amazon-music-louder.html)
• Marvin  + (Makers' lab emlyon business school : [http://makerslab.em-lyon.com/ makerslab.em-lyon.com] Retrouvez Marvin aussi sur [https://www.thingiverse.com/thing:215703 thingiverse.com/thing:215703])
• Marvin  + (Makers' lab emlyon business school : [http://makerslab.em-lyon.com/ makerslab.em-lyon.com] Retrouvez Marvin aussi sur [https://www.thingiverse.com/thing:215703 thingiverse.com/thing:215703])
• 123Tourelle  + (Matériel nécessaire : <br/> *1 Pla … Matériel nécessaire :
  *1 Plaque MDF 3mm : 3€ *1 Arduino UNO : 25€ *1 Potentiomètre : 1€ *1 Interrupteur : 1€ *1 Breadboard + câbles prototypage : 10€ *Ecran OLED SSD1306 : 5€ *Capteur Température/Pression/Humidité BME280 : 6€ *Capteur sonore : 2€ *Led Ring 12 LEDs WS2812 : 5€ *Servo moteur : 3€ *Bouton poussoir + capteur capacitif TTP223B : 3€ *Lot de 3 détecteurs Micro-Ondes RCWL-0516 : 6€ *2 bornes de raccordement de type Wago : 2€ *Peinture, ruban adhésif (dont décoratif) , consommable imprimante 3D, petite visserie, colle, divers : 10€ Soit environ 70 à 80€ pour une seule unité ; pour plusieurs unités, avec achat de lots, les tarifs devraient être bien revus à la baisse. Outils * 1 découpeuse laser (pour découper les plaques de bois et personnalisation par gravure et logiciel adapté * 1 imprimante 3D (pour imprimer le cache écran, la tourelle et le détonateur) et slicer 3D adapté * 1 fer à souder + étain (pour souder tous les câbles sur les composants le nécessitant (LED Ring, bouton poussoir, ...) * 1 perceuse * éventuelle fraiseuse si on veut faire le trou pour le servo moteur par ce moyen * pince coupante, cutter, scie * colle à bois, colle plastique, ruban adhésif Logiciels : * Inkscape + plugin "J Tech Photonics Laser Tool" pour la découpe du bois et gravure * Sketchup pour la modélisation 3D du cache écran (facultatif, fichier fourni) * ThinkerCAD pour la modélisation 3D de la tourelle et du détonateur (facultatif, fichiers fournis) * IDE Arduino pour l'écriture du code et téléversement vers l'Arduinoécriture du code et téléversement vers l'Arduino)
• Noeud papillon en bois decoupe a la laser  + (Milles merci au [http://carrefour-numeriqu … Milles merci au [http://carrefour-numerique.cite-sciences.fr/fablab/wiki/doku.php?id=projets:noeuds_papillon_en_bois Carrefour numérique et yarzou pour le modèle de base] Ils donnent aussi [http://carrefour-numerique.cite-sciences.fr/fablab/wiki/doku.php?id=machines:decoupe_laser:reglages:speedy400 les paramètres pour la trotec] mais j'ai adapté pour que ça aille plus viteis j'ai adapté pour que ça aille plus vite)
• Noeud papillon en bois decoupe a la laser  + (Milles merci au [http://carrefour-numeriqu … Milles merci au [http://carrefour-numerique.cite-sciences.fr/fablab/wiki/doku.php?id=projets:noeuds_papillon_en_bois Carrefour numérique et yarzou pour le modèle de base] Ils donnent aussi [http://carrefour-numerique.cite-sciences.fr/fablab/wiki/doku.php?id=machines:decoupe_laser:reglages:speedy400 les paramètres pour la trotec] mais j'ai adapté pour que ça aille plus viteis j'ai adapté pour que ça aille plus vite)
• Mini Aéroglisseur connecté  + (Nous avons pensé à d'autres options, mais … Nous avons pensé à d'autres options, mais notre projet n'est pas pleinement aboutie. Voici quelques idées: - Automatiser une connexion bluetooth - Retravailler le design du véhicule - Programmer la carte pour que l'aéroglisseur suive les mouvements de la tablette ( Ex: Incliner vers l'avant → Avancer) - L'équiper d'une caméra.vant → Avancer) - L'équiper d'une caméra.)
• Bougeoir structuré en cuivre et bois  + (Nous vous invitons à découvrir notre bouge … Nous vous invitons à découvrir notre bougeoir cuivré dans la rubrique « Le Blog du mois » du magazine Nest du mois de juin, vous y découvrirez également de nombreuses inspirations et reportages de saison autour des thèmes déco, maison, saveurs, nature et idées !s déco, maison, saveurs, nature et idées !)
• Bougeoir structuré en cuivre et bois  + (Nous vous invitons à découvrir notre bouge … Nous vous invitons à découvrir notre bougeoir cuivré dans la rubrique « Le Blog du mois » du magazine Nest du mois de juin, vous y découvrirez également de nombreuses inspirations et reportages de saison autour des thèmes déco, maison, saveurs, nature et idées !s déco, maison, saveurs, nature et idées !)
• Eclairage de cave sur batterie 12V  + (On pourra améliorer ce montage, et notamme … On pourra améliorer ce montage, et notamment son autonomie (un peu) en réduisant la consommation de la partie électronique en remplaçant deux éléments: * le relais par un MOSFET choisit avec soin pour gérer la puissance. Attention tout de même à ne pas faire passer trop de courant par des pistes du circuit imprimer non-dimensionner pour (risque de surchauffe). * le régulateur de tension (linéaire) par un petit convertisseur DC-DC à découpage beaucoup plus efficace mais un peu plus cher (quelques euros). Le projet est aussi hébergé sous forme d'un dépôt GIT : https://framagit.org/arofarn/Cave_a_Papa: https://framagit.org/arofarn/Cave_a_Papa)
• Eclairage de cave sur batterie 12V  + (On pourra améliorer ce montage, et notamme … On pourra améliorer ce montage, et notamment son autonomie (un peu) en réduisant la consommation de la partie électronique en remplaçant deux éléments: * le relais par un MOSFET choisit avec soin pour gérer la puissance. Attention tout de même à ne pas faire passer trop de courant par des pistes du circuit imprimer non-dimensionner pour (risque de surchauffe). * le régulateur de tension (linéaire) par un petit convertisseur DC-DC à découpage beaucoup plus efficace mais un peu plus cher (quelques euros). Le projet est aussi hébergé sous forme d'un dépôt GIT : https://framagit.org/arofarn/Cave_a_Papa: https://framagit.org/arofarn/Cave_a_Papa)
• Fabriquer un badge 38mm avec une eBadges  + (Par Anthony Jacques, Technobel ASBL Merci au blog http://echosdansmatete.over-blog.com/article-badge-it-faire-ses-propres-badges-de-geek-imprimables-124856155.html pour le fichier publisher destiné à l'impression)
• Fabriquer un badge 38mm avec une eBadges  + (Par Anthony Jacques, Technobel ASBL Merci au blog http://echosdansmatete.over-blog.com/article-badge-it-faire-ses-propres-badges-de-geek-imprimables-124856155.html pour le fichier publisher destiné à l'impression)
• Porte-Manteau en planche de skate/fr  + (Pièces à imprimer à 3D, mais aussi le gaba … Pièces à imprimer à 3D, mais aussi le gabarit de découpe et de perçage de la planche de skate : www.thingiverse.com/thing:1947090 Vous pouvez également trouver des planches brutes sur des sites d'annonce avec les mots clé : Planche de Skate Brut Ainsi que pour les roues de skate : Roues de Skate blanc, rouge, bleu, noir. Vous pourrez également trouver d'autre réalisation sur le Facebook de Bolt et Nut : https://www.facebook.com/boltetnut/Nut : https://www.facebook.com/boltetnut/)
• Portemanteau planche de skate  + (Pièces à imprimer à 3D, mais aussi le gaba … Pièces à imprimer à 3D, mais aussi le gabarit de découpe et de perçage de la planche de skate : www.thingiverse.com/thing:1947090 Vous pouvez également trouver des planches brutes sur des sites d'annonce avec les mots clé : Planche de Skate Brut Ainsi que pour les roues de skate : Roues de Skate blanc, rouge, bleu, noir. Vous pourrez également trouver d'autre réalisation sur le Facebook de Bolt et Nut : https://www.facebook.com/boltetnut/Nut : https://www.facebook.com/boltetnut/)
• Portemanteau planche de skate  + (Pièces à imprimer à 3D, mais aussi le gaba … Pièces à imprimer à 3D, mais aussi le gabarit de découpe et de perçage de la planche de skate : www.thingiverse.com/thing:1947090 Vous pouvez également trouver des planches brutes sur des sites d'annonce avec les mots clé : Planche de Skate Brut Ainsi que pour les roues de skate : Roues de Skate blanc, rouge, bleu, noir. Vous pourrez également trouver d'autre réalisation sur le Facebook de Bolt et Nut : https://www.facebook.com/boltetnut/Nut : https://www.facebook.com/boltetnut/)
• Boite à Histoires  + (Pour acheter les différents composants de la boite à histoires lire mon article sur [http://blog.animtic.fr/2016/08/boite-a-histoires-v1/ blog.animtic.fr]. Voir aussi sur [https://github.com/julanimtic/boite-histoire github.com])
• Boite à Histoires  + (Pour acheter les différents composants de la boite à histoires lire mon article sur [http://blog.animtic.fr/2016/08/boite-a-histoires-v1/ blog.animtic.fr]. Voir aussi sur [https://github.com/julanimtic/boite-histoire github.com])
• Domotiser 3 volets roulants Bubendorff pour moins de 20 euros avec 3 solutions  + (Pour le deuxième montage, je me suis inspi … Pour le deuxième montage, je me suis inspiré de l'article : Les GPIO dans Domoticz [https://goo.gl/hwihwm] Pour le troisième montage, c'est cet article qui m'a donné la solution : [https://www.geeek.org/comment-domotiser-ses-volets-radio-pour-moins-de-50-960.html]. Ce second article m'a donné des informations pour le croquis : ESP8266 : serveur web de commande d'une LED [https://phmarduino.wordpress.com/2016/06/04/694/].phmarduino.wordpress.com/2016/06/04/694/].)
• Fabrication : Ventilateur USB  + (Pour vous permettre un accès par paliers à … Pour vous permettre un accès par paliers à la fabrication, je vous propose plusieurs manières de vous procurer les pièces détachées : tom[at]faire-savoir.me Le circuit électronique peut être commandé monté ou en pièces détacher à souder. Voir le tutoriel sur le site [http://faire-savoir.me/2017/10/01/usb-ventilator/ Faire-Savoir.me].17/10/01/usb-ventilator/ Faire-Savoir.me].)
• Fabrication : Ventilateur USB  + (Pour vous permettre un accès par paliers à … Pour vous permettre un accès par paliers à la fabrication, je vous propose plusieurs manières de vous procurer les pièces détachées : tom[at]faire-savoir.me Le circuit électronique peut être commandé monté ou en pièces détacher à souder. Voir le tutoriel sur le site [http://faire-savoir.me/2017/10/01/usb-ventilator/ Faire-Savoir.me].17/10/01/usb-ventilator/ Faire-Savoir.me].)
• Cadre en gravure plexi façon pochoir  + (Réalisé dans le cadre du concours Trotec a … Réalisé dans le cadre du concours Trotec avec Wikifab. Nous avons réalisé ce cadre en nous inspirant du travail de Christophe, un membre de l'[[Group:Lille Makers|association Lille Makers]], pour la fabrication de pochoirs avec un plotter de découpe et Inkscape. Vous pouvez voir son travail ici : [https://ouiaremakers.com/posts/tutoriel-diy-la-base-du-graff-et-du-pochoir ouiaremakers.com/posts/tutoriel-diy-la-base-du-graff-et-du-pochoir].oriel-diy-la-base-du-graff-et-du-pochoir].)
• Cadre en gravure plexi façon pochoir  + (Réalisé dans le cadre du concours Trotec a … Réalisé dans le cadre du concours Trotec avec Wikifab. Nous avons réalisé ce cadre en nous inspirant du travail de Christophe, un membre de l'[[Group:Lille Makers|association Lille Makers]], pour la fabrication de pochoirs avec un plotter de découpe et Inkscape. Vous pouvez voir son travail ici : [https://ouiaremakers.com/posts/tutoriel-diy-la-base-du-graff-et-du-pochoir ouiaremakers.com/posts/tutoriel-diy-la-base-du-graff-et-du-pochoir].oriel-diy-la-base-du-graff-et-du-pochoir].)
• FabCat House  + (Site Internet du projet : [http://fabcat.g … Site Internet du projet : [http://fabcat.gregor-design.eu/ fabcat.gregor-design.eu] Un immense merci ! N'hésitez pas à commenter ce tutoriel ou à m'envoyer un message si vous avez des idées d'amélioration ! Sur le site, vous trouverez aussi un questionnaire sur le mouvement maker, que je vous invite à remplir.ement maker, que je vous invite à remplir.)
• Fab'tiquette  + (Site de design personnalisé :  https://shapediver.com/m/fab-tiquette-2 Une création du [[Group:FacLab|FacLab de Cergy]] : voir le [https://www.faclab.org/ site internet]. Auteurs - contributeurs du Faclab : Adrien, Ewa et Philippe)
• Fab'tiquette  + (Site de design personnalisé :  https://shapediver.com/m/fab-tiquette-2 Une création du [[Group:FacLab|FacLab de Cergy]] : voir le [https://www.faclab.org/ site internet]. Auteurs - contributeurs du Faclab : Adrien, Ewa et Philippe)
• How to Play Apple Music Soundtrack in GTA5  + (Thanks to the powerful capabilities of Aud … Thanks to the powerful capabilities of AudFree Apple Music Converter, you can now enhance your GTA 5 gaming experience by adding your favorite Apple Music tracks to the game's soundtrack. Follow the steps outlined in this article, and soon you'll be cruising through Los Santos with your personalized playlist, making the game even more immersive and enjoyable. Happy gaming! Welcome to visit the link to refer to more details if you have any questions: https://www.audfree.com/apple-music-tips/how-to-play-apple-music-on-gta5.html-tips/how-to-play-apple-music-on-gta5.html)
• Nichoir à abeilles sauvages et solitaires  + (Un gîte pour abriter les bébés des abeille … Un gîte pour abriter les bébés des abeilles c'est très bien! Mais il est nécessaire de leur offrir aussi le couvert. Quand la larve devient adulte, ça sera à son tour d'assurer sa descendance. Elle va devoir, comme sa mère, trouver des matériaux pour aménager les chambres de ses propres enfants, et de la nourriture pour les nourrir. C'est pour cela qu'en plus de l'installation des nichoirs, preservez des carrés de biodiversité où on laisse les plantes pousser, fleurir, fructifier, faner, produire leurs graines, sans tondre systématiquement. N'hésitez donc pas à semer et à laisser pousser !ez donc pas à semer et à laisser pousser !)
• Pad d'arcade  + (Un projet réalisé au [[Group:LabBoîte Cergy|fablab LabBoîte de Cergy]] à retrouver aussi sur [https://github.com/hugotpichon/arcpad-pic18f4550 github.com/hugotpichon/arcpad-pic18f4550].)