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Featured
5 Valuable uses for stretchable electronic circuits
... 5 Valuable uses for stretchable electronic circuits - Electronic Products & TechnologyElectronic Products & ...
Tampere, Finland
11-50 Employees
2015
FORCIOT® is a Finnish technology company that was born in December 2015 out of love for engineering challenges and sports. Forciot founders realized that they could bring this technology into markets. The forciot team wanted to change the world by providing IoT-sensor innovations that enable people to sense the world in new revolutionary ways. Forciot is headquartered in Tampere and it develops advanced IoT sensor solutions. Forciot’s unique stretchable electronics solution can be integrated into products and equipment to measure and report accurately force, weight, balance and pressure. Forciot’s key business areas are automotive, logistics and wearable sectors. Forciot brand is the industry standard in stretchable electronics worldwide. Forciot introduces innovative own stretchable electronics products and services to the market as well.
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Featured
PRINTED STRETCHABLE ELECTRONICS
... Learn more about Forciot's unique printed stretchable electronics technology, products, services, and solutions. ...
Kitchener, Canada
1-10 Employees
2013
Additive technology offers materials freedom — for inks and substrates — creating new applications in wearable electronics, biomedical devices, printed sensors, and more. No contract manufacturers, no minimum order quantity, lower cost of entry, easier to use machines, and design freedom.
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Featured
Home - The Future of Additive Electronics | Voltera
... We make rapid prototyping platforms for printed electronics — from traditional circuit boards to the flexible, stretchable, conformable, and biocompatible electronics of tomorrow. ...
Edmonton, Canada
1-10 Employees
2018
At ZiprPrint, we provide 3D printing solutions for your most challenging problems. ZiprPrint’s fused pellet printing (FPP) technology offers you professional precision by featuring immediate ON/OFF control of the melt flow for non-printing movements. We specialize in developing hardware and material for FDM 3D printers.
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Featured
Additive Manufacturing | ZiprPrint
... We also provide: -Rapid prototyping services -Replacement of obsolete components -Mass customization -Stretchable electronics ...
Hasselt, Belgium
1-10 Employees
How can you benefit from integrating electronics better into your mechanical products? Just as the integration of nerves into your skin, we can integrate sensing elements in your products to make them smart. We first analyse your wiring challenges and translate these into different product ideas. Together with our production partners, we supply you with the engineered products. Curious how we can make your product smart or more compact?
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Featured
Innervate – electronics in motion
... Find all answers in our whitepaper about stretchable electronics in moving ...
Parsippany-Troy Hills, United States
10001+ Employees
1929
Backed by over 200 years of experience, Sun Chemical and its parent company, DIC Corporation, have over 22,000 employees working every day to meet the needs of customers by improving performance on the essentials of business, such as reliable, on-time delivery and consistent product quality. Sun Chemical tailors solutions to unique customer needs and brings new ideas and the latest technology to market. Together with DIC, Sun Chemical is continuously working to promote and develop sustainable solutions to exceed customer expectations and better the world around us. Sun Chemical’s unparalleled global presence allows for the delivery of local service and support that is customized to the markets it serves. Recognized as a leading source of innovation, Sun Chemical and DIC have 17 research and development centers that are committed to creating solutions that improve productivity, create new revenue opportunities for customers, and contribute to a more sustainable future.
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Featured
Broad Range of Products for Stretchable and Wearable Electronics
... Sun Chemical’s SunTronic solutions for stretchable and wearable electronics contains a range of functional materials to support applications where high level of conformability is required. ...
San Diego, United States
1-10 Employees
2016
Grolltex, short for ‘graphene-rolling-technologies’, is an advanced materials and equipment company located in the Scripps Ranch area of San Diego, California. All of our products and materials are designed and made in the U.S.A. Our core strength is creating products based in single layer, CVD generated graphene of the highest quality. Through patented transfer and processing methods, we are able to produce single layer graphene at a cost structure not previously known. Our methodologies enable the design of world class graphene products, as well as the equipment used for graphene transfer that reuses and optimizes the previously ‘sacrificial’ copper substrate. Additionally, our processes enable new graphene product designs and directions in the areas of sensing, OLED’s, barrier materials, bio-sensors and many more. For example, we have created what we believe is ‘the smallest, most sensitive strain sensor in the world’. It is this mindset that is the basis of our designs and products and one look at our IP portfolio illustrates this idea.
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Featured
Flexible transparent conductive electode - GROLLTEX - GRAPHENE-ROLLING-TECHNOLOGIES
... ITO replacement Flexible touchscreens HUD’s Stretchable electronics ...
San Jose, United States
1-10 Employees
2015
The formation of NextFlex, America’s Flexible Hybrid Electronics Manufacturing Institute, has catalyzed the rapidly expanding field of Flexible Hybrid Electronics (FHE). NextFlex is a consortium of American electronics companies, academic institutions, non-profits, state, local and federal government partners with the shared goal of advancing U.S. manufacturing of printed flexible electronics. Since its formation in 2015, the NextFlex community of technologists, educators, problem solvers and manufacturers have come together to collectively facilitate FHE innovation, narrow the advanced manufacturing workforce gap and promote sustainable electronics manufacturing ecosystems. NextFlex is one of nine Manufacturing Innovation Institutes established by the DoD Manufacturing Technology Program as public-private partnerships. NextFlex was launched under AFRL Cooperative Agreement FA8650-15-2-5401 and continues to be financially supported through AFRL Cooperative Agreement FA8650-20-2-5506, membership dues, and various commercial, government, and educational offerings made available via the NextFlex Technology Hub.
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Featured
What are Flexible Hybrid Electronics? | Printed Electronics
... Flexible hybrid electronics include flexible printed circuits, foldable/stretchable electronics, and organic electronics for soft robotics & wearable electronics. ...
Stuttgart, Germany
1-10 Employees
2017
Ein aktuelles Entwicklungsprojekt: Mit peptech Sensorik ausgestattete Sportschuhe. Wir entwickeln und produzieren Sensoren mit verschiedensten Spezifikationen für eine Vielzahl von Anwendungen in den unterschiedlichsten Bereichen der Industrie, der Pharmazie, der Robotik, der Prothetik und Exoskelett-Technik sowie der Medizintechnik.“. Der technologische Vorsprung von peptech liegt in der Ganzheitlichkeit von Tinte, Prozess und Nachbehandlung.
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Featured
ABOUT US - peptech | flexible und gedruckte Elektronik
... GmbH peptech GmbH was founded in 2016 by Dr Norman Mechau as a technology company dedicated to the development and manufacture of sensor systems based on printed, flexible and stretchable electronics. The name peptech is derived from ‘Printed Electronic Process technology’. The company ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Stretchable Electronics
Country with most fitting companies | Canada |
Amount of fitting manufacturers | 10 |
Amount of suitable service providers | 9 |
Average amount of employees | 1-10 |
Oldest suiting company | 1929 |
Youngest suiting company | 2021 |
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Stretchable electronics, a revolutionary subfield within material science and electronic engineering, refers to the design and fabrication of electronic circuits and devices that can stretch, bend, and flex while maintaining functionality. This innovative technology leverages conductive polymers, elastomers, and advanced engineering techniques to create electronics that can withstand mechanical deformation without compromising performance. The significance of stretchable electronics lies in its vast applications across various sectors, including wearable technology, biomedical devices, and soft robotics. In the realm of healthcare, for instance, stretchable electronic devices can be integrated into smart textiles or directly applied onto the skin as electronic tattoos, offering unprecedented opportunities for real-time health monitoring and diagnostics. This capability not only enhances patient care but also paves the way for personalized medicine. Furthermore, in the consumer electronics industry, the adaptability and durability of stretchable electronics open new avenues for product innovation, such as flexible screens and wearable sensors that seamlessly integrate with the human body. The development of stretchable electronics marks a pivotal shift towards more versatile and human-centric technologies, underscoring its transformative potential and broad impact within its field.
1. Flexibility and Durability
Stretchable electronics offer unparalleled flexibility and durability compared to traditional rigid electronic devices. This allows them to be used in a wide range of applications, from wearable technology to biomedical devices, where movement and flexibility are essential. Their ability to stretch and bend without losing functionality means they can be integrated into clothing or worn on the skin, opening up new possibilities for monitoring health or enhancing connectivity.
2. Enhanced User Comfort
The adaptability of stretchable electronics to the body’s contours significantly improves user comfort. Unlike hard, inflexible devices, these electronics feel more like a part of the wearer, making them ideal for long-term wear in medical monitoring or as part of interactive clothing. This increased comfort does not compromise their performance, ensuring users benefit from high-tech solutions without the downsides of conventional electronics.
3. Greater Integration Possibilities
Stretchable electronics can be seamlessly integrated into diverse materials and surfaces, broadening their application scope. Their versatility allows for incorporation into textiles, soft robotics, or even bio-integrated devices, facilitating innovations that were previously unattainable with rigid electronics. This capability enables the development of smart environments and more intuitive interfaces, enhancing everyday interactions with technology.
While evaluating the different suppliers make sure to check the following criteria:
1. Material Compatibility
Ensure the supplier's materials are compatible with your product's specifications. Stretchable electronics require materials that can maintain conductivity while being stretched.
2. Innovation and R&D Capabilities
The supplier should have a strong focus on research and development to keep up with the fast-evolving field of stretchable electronics.
3. Manufacturing Flexibility
The ability to adapt manufacturing processes to produce custom designs and prototypes is crucial for specialized applications.
4. Quality Assurance
Assess the supplier's quality control measures to ensure the durability and reliability of the stretchable electronics.
5. Scalability
The supplier should be able to scale production up or down based on your demand, without compromising on quality or lead times.
6. Cost Effectiveness
While not compromising on quality, the supplier should offer competitive pricing to ensure the cost-effectiveness of your project.
Stretchable electronics are revolutionizing the healthcare industry by enabling the development of advanced wearable medical devices. These devices, capable of conforming to the human body's contours, offer continuous health monitoring, from tracking vital signs to measuring physical activity levels. Their flexibility and comfort have made them indispensable in patient care and fitness management, facilitating real-time data collection for better health outcomes. In the automotive sector, stretchable electronics are enhancing vehicle safety and functionality. Integrated into car interiors, these flexible circuits can be found in airbag systems and seat sensors, improving response times during accidents and ensuring optimal passenger protection. Their adaptability allows for seamless integration into various vehicle parts, contributing to smarter, more responsive automotive designs. The consumer electronics industry is another beneficiary, where stretchable electronics are pushing the boundaries of product design and functionality. Flexible displays and sensors embedded in smart clothing and accessories are creating new experiences for users, from interactive garments that react to environmental changes to fitness apparel that monitors biometric data. This innovation is leading to more personalized and immersive technology applications, meeting the growing demand for wearable technology. These use cases across healthcare, automotive, and consumer electronics demonstrate stretchable electronics' potential to transform product design and functionality, offering more adaptable, efficient, and user-centric solutions across industries.
Stretchable electronics, a pioneering field combining electronics with the elasticity of rubber, currently sits at varying Technology Readiness Levels (TRLs) from 3 to 6, depending on the specific application and material innovation involved. This broad range is due to the extensive research and development phase focusing on material durability, conductivity, and integration with traditional electronics. At the lower end (TRL 3), researchers are primarily engaged in experimental proof of concept, demonstrating the feasibility of stretchable circuits and sensors in lab settings. Challenges such as maintaining electrical performance under strain, ensuring long-term material stability, and developing scalable manufacturing methods are pivotal. As we move towards the mid-range TRLs (4-6), prototypes are being tested in more realistic environments, showcasing potential applications in wearable technology, healthcare monitoring devices, and soft robotics. However, the technical bottleneck remains in achieving a seamless interface between soft, stretchable components and rigid, conventional electronic parts. Overcoming these hurdles requires innovative approaches to material science and engineering, including the development of new conductive polymers and stretchable substrates that can withstand repeated stretching without degradation. The transition from the lab to the market is contingent upon resolving these technical challenges, alongside ensuring the cost-effectiveness and reliability of the final products.
In the short-term, stretchable electronics are poised to undergo significant improvements in material durability and elasticity. Researchers are focusing on developing more resilient compounds that can withstand greater stretching and bending, aiming to enhance the usability and longevity of wearable devices. This phase is expected to see the integration of stretchable batteries and sensors into textiles, making smart clothing more accessible and practical for everyday use. The mid-term outlook for stretchable electronics centers on the advancement of manufacturing techniques and the expansion of application areas. Innovative production methods such as 3D printing will become more prevalent, allowing for the creation of complex, multi-functional devices at a lower cost. Additionally, the scope of stretchable electronics will broaden to include biomedical applications, such as implantable health monitors and advanced prosthetics, benefiting from the technology's increased adaptability and comfort. Looking into the long-term, stretchable electronics are anticipated to revolutionize the interface between humans and machines. The development of highly sophisticated, AI-driven systems embedded within stretchable substrates will enable seamless, intuitive interactions with technology. These advancements will pave the way for entirely new categories of devices, blurring the lines between electronics and the human body, and expanding possibilities in communication, health monitoring, and beyond.
Some interesting questions that has been asked about the results you have just received for Stretchable Electronics
What are related technologies to Stretchable Electronics?
Based on our calculations related technologies to Stretchable Electronics are Magnets, Printed Electronics, Industrial Amplifiers, Electronic Transducers, Electronic Oscillators
Who are Start-Ups in the field of Stretchable Electronics?
Start-Ups who are working in Stretchable Electronics are Booksmart
Which industries are mostly working on Stretchable Electronics?
The most represented industries which are working in Stretchable Electronics are Manufacturing, Hardware, Science and Engineering, Consumer Electronics, Content and Publishing
How does ensun find these Stretchable Electronics Suppliers?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.