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Flexible Metamaterial Electronics
Advanced Materials, 2022AbstractOver the last decade, extensive efforts have been made on utilizing advanced materials and structures to improve the properties and functionalities of flexible electronics. While the conventional ways are approaching their natural limits, a revolutionary strategy, namely metamaterials, is emerging toward engineering structural materials to ...
Shan Jiang +7 more
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Hydrogel‐Based Flexible Electronics
Advanced Materials, 2023AbstractFlexible electronics is an emerging field of research involving multiple disciplines, which include but not limited to physics, chemistry, materials science, electronic engineering, and biology. However, the broad applications of flexible electronics are still restricted due to several limitations, including high Young's modulus, poor ...
Lixuan Hu +11 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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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 ...
Jiahui Guo +7 more
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Overview of Ionogels in Flexible Electronics
The Chemical Record, 2020AbstractIonogels have aroused wide interests in the field of flexible electronics. The combination of solid‐state networks and ionic liquids opens up thousands of possibilities for ionogels. The unique structures of ionogels endow them excellent mechanical properties, conductivity and thermal stability to approach the challenge of flexible electronic ...
Lu Zhang +9 more
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Flexible power for flexible electronics
Science, 2016Materials 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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Printable electronics: flexibility for the future
physica status solidi (a), 2009AbstractPrinted electronics is an emerging technology with huge potential. Market studies predict a multi‐billion dollar market size within less than 5 years. Due to its compatibility with flexible substrates and low‐cost fabrication, printed electronics is able to bring electronic functionality to markets unfit for rigid and expensive silicon ...
Mark A. M. Leenen +4 more
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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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Materials chemistry in flexible electronics
Chemical Society Reviews, 2019Guest editors Xiaodong Chen, John A. Rogers, Stéphanie P. Lacour, Wenping Hu, and Dae-Hyeong Kim introduce the Materials chemistry in flexible electronics themed issue of Chemical Society Reviews.
Xiaodong, Chen +4 more
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