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2D Materials in Flexible Electronics: Recent Advances and Future Prospectives.
Chemical Reviews, 2023Flexible electronics have recently gained considerable attention due to their potential to provide new and innovative solutions to a wide range of challenges in various electronic fields.
A. K. Katiyar +6 more
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Microfluidics for flexible electronics
Materials Today, 2021Abstract Flexible electronics has extensively drawn attention in an extremely wide range of areas due to its unique advantages like portability, biocompatibility, wearability, and superior mechanical stability. Recently, microfluidic technology has been considered as an effective tool to fabricate flexible electronics because of its precise control ...
Keqing Shi +7 more
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Small, 2023
Organic flexible electronic devices are at the forefront of the electronics as they possess the potential to bring about a major lifestyle revolution owing to outstanding properties of organic semiconductors, including solution processability ...
Haoran Liu +4 more
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Organic flexible electronic devices are at the forefront of the electronics as they possess the potential to bring about a major lifestyle revolution owing to outstanding properties of organic semiconductors, including solution processability ...
Haoran Liu +4 more
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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
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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
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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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Flexible power for flexible electronics [PDF]
Science, 2016 Materials Science A challenge for flexible electronics is to couple devices with power sources that are also flexible. Ideally, they could also be processed in a way that is compatible with current microfabrication technologies. Huang et al. deposited a relatively thick layer of TiC on top of an oxide-coated Si film.
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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
S. Aftab, H. H. Hegazy, F. Kabir
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Small Methods, 2018
AbstractDuring the past two decades, the vigorous development of flexible organic semiconductor devices has heralded a new era of human society due to their promising applications in portable, wearable, implantable, and biological electronics. In recent years, exciting progress has been made on various flexible electronic devices, including organic ...
Ling, H, Liu, S, Zheng, Z, Yan, F
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AbstractDuring the past two decades, the vigorous development of flexible organic semiconductor devices has heralded a new era of human society due to their promising applications in portable, wearable, implantable, and biological electronics. In recent years, exciting progress has been made on various flexible electronic devices, including organic ...
Ling, H, Liu, S, Zheng, Z, Yan, F
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Nano Letters, 2003
Nanotube network transistors have been transferred to polymer supports. The polymer-supported networks can be bent through at least 60° angles without changing their electronic properties.
Bradley, Keith +2 more
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Nanotube network transistors have been transferred to polymer supports. The polymer-supported networks can be bent through at least 60° angles without changing their electronic properties.
Bradley, Keith +2 more
openaire +3 more sources