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Advanced Functional Materials, 2023
Due to their intrinsic flexibility, tunable conductivity, multiple stimulus‐response, and self‐healing ability, ionic conductive hydrogels have drawn significant attention in flexible/wearable electronics.
Yong-Chien Long +6 more
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Due to their intrinsic flexibility, tunable conductivity, multiple stimulus‐response, and self‐healing ability, ionic conductive hydrogels have drawn significant attention in flexible/wearable electronics.
Yong-Chien Long +6 more
semanticscholar +1 more source
Advanced Functional Materials, 2023
Inherently tissue‐like feature and multifunctional property of hydrogels make themself excellent materials for flexible electronics. However, conventional hydrogels with insufficient mechanical strength and poor fatigue resistance are damaged or lose ...
Rongjun Liu +7 more
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Inherently tissue‐like feature and multifunctional property of hydrogels make themself excellent materials for flexible electronics. However, conventional hydrogels with insufficient mechanical strength and poor fatigue resistance are damaged or lose ...
Rongjun Liu +7 more
semanticscholar +1 more source
Advanced Functional Materials, 2022
Laser‐induced graphene (LIG) is a newly emerging 3D porous material produced when irradiating a laser beam on certain carbon materials. LIG exhibits high porosity, excellent electrical conductivity, and good mechanical flexibility.
Truong‐Son Dinh Le +10 more
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Laser‐induced graphene (LIG) is a newly emerging 3D porous material produced when irradiating a laser beam on certain carbon materials. LIG exhibits high porosity, excellent electrical conductivity, and good mechanical flexibility.
Truong‐Son Dinh Le +10 more
semanticscholar +1 more source
Liquid metal flexible electronics: Past, present, and future
Applied Physics Reviews, 2023Flexible electronics is one of the most overwhelming and promising technologies available today, receiving widespread attention from both academia and industry. As it continues to evolve, demands on flexible conductive materials are becoming increasingly
Sen Chen +4 more
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ACS Nano, 2023
The ability to tolerate large strains during various degrees of deformation is a core issue in the development of flexible electronics. Commonly used strategies nowadays to enhance the strain tolerance of thin film devices focus on the optimization of ...
Hong Hu +13 more
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The ability to tolerate large strains during various degrees of deformation is a core issue in the development of flexible electronics. Commonly used strategies nowadays to enhance the strain tolerance of thin film devices focus on the optimization of ...
Hong Hu +13 more
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Emerging Trends in 2D Flexible Electronics
Advanced Materials & Technologies, 2023Potential for integrated flexible electronics has been shown for 2D materials with atomically thin layers and dangling‐bond‐free surfaces. Strain engineering is a fascinating technique for tuning or controlling the electronic and optical properties of 2D
Sikandar Aftab, H. H. Hegazy, F. Kabir
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Nanotechnology-based flexible electronics
Nanotechnology, 2012Research on flexible electronics has grown exponentially over the last decade. Researchers around the globe are developing a wide range of flexible systems, including displays [1, 2], sensors [3–5], RFID tags [6, 7] and other similar devices [8]. Innovations in materials have been key to the increased research success in this field of research in ...
Vivek, Subramanian, Takhee, Lee
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ACS Nano, 2021
Flexible electronics as an emerging technology has demonstrated potential for applications in various fields. With the advent of the Internet of Things era, countless flexible electronic systems need to be developed and deployed.
Meng Wang +7 more
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Flexible electronics as an emerging technology has demonstrated potential for applications in various fields. With the advent of the Internet of Things era, countless flexible electronic systems need to be developed and deployed.
Meng Wang +7 more
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Organic Flexible Electronics for Innovative Applications in Electronic Skin
Advanced Materials & TechnologiesThe emergence of cutting‐edge cross‐disciplines has motivated the rapid development of wearable technology and flexible electronics. The flexibility and tunable properties of organic materials enable organic flexible electronics to adapt to complex ...
Xukai Liu +7 more
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From flexible electronics to flexible photonics: A brief overview
Optical Materials, 2021The development of the information technology and, very recently, of new application scenarios like Internet of Things (IoT) and Industry 4.0 has pushed the research towards new technological platforms. In this frame, the spatial freedom permitted by flexible short-range connections and flexible devices has become as important as "classical" parameters
Giancarlo C Righini +5 more
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