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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 ...
Takhee Lee, Vivek Subramanian
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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.
Stéphanie P. Lacour +4 more
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2015
In this chapter, we describe a new type of paper substrate based on cellulose nanofibers for flexible electronic applications. Cellulose nanofiber paper, referred to as nanopaper in this study, has high optical transparency like that of polyethylene terephthalate (PET) films and a low coefficient of thermal expansion comparable to that of glass.
Masaya Nogi, Hirotaka Koga
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In this chapter, we describe a new type of paper substrate based on cellulose nanofibers for flexible electronic applications. Cellulose nanofiber paper, referred to as nanopaper in this study, has high optical transparency like that of polyethylene terephthalate (PET) films and a low coefficient of thermal expansion comparable to that of glass.
Masaya Nogi, Hirotaka Koga
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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 ...
Heiko Thiem +4 more
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Nature, 2001
Microelectronic devices incorporating organic materials could find a host of applications. That prospect inches nearer with the development of a strategy for growing thin films of the organic semiconductor pentacene.
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Microelectronic devices incorporating organic materials could find a host of applications. That prospect inches nearer with the development of a strategy for growing thin films of the organic semiconductor pentacene.
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Ultra-thin, flexible electronics
2008 58th Electronic Components and Technology Conference, 2008Thinned die can be used to realize ultra-thin flexible electronics for applications such as conformal and wearable electronics. Three techniques have been developed to achieve this goal using thinned die: die flip chip bonded onto flexible substrates, die laminated onto LCP films, and die embedded in polyimide.
Holland, Brian +7 more
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Inorganic Semiconductors for Flexible Electronics
Advanced Materials, 2007AbstractThis article reviews several classes of inorganic semiconductor materials that can be used to form high‐performance thin‐film transistors (TFTs) for large area, flexible electronics. Examples ranging from thin films of various forms of silicon to nanoparticles and nanowires of compound semiconductors are presented, with an emphasis on methods ...
John A. Rogers, Yugang Sun
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Advanced Functional Materials, 2020
The rapid progress in flexible electronic devices has attracted immense interest in many applications, such as health monitoring devices, sensory skins, and implantable apparatus.
Yu Wang +5 more
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The rapid progress in flexible electronic devices has attracted immense interest in many applications, such as health monitoring devices, sensory skins, and implantable apparatus.
Yu Wang +5 more
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Flexibility Testing Strategies and Apparatus for Flexible Electronics
IEEE Transactions on Electron Devices, 2016We report testing strategies and apparatus for the testing of flexible electronic devices and systems. To make reliable electrical connections for flexible electronic devices under mechanical flexibility testing, we use an anisotropic conductive film bonding of flexible extension cables to long connection leads on the flexible sample.
Thomas N. Jackson, Haoyu U. Li
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Flexible colloidal nanocrystal electronics
Chemical Society Reviews, 2019Colloidal nanocrystals are dispersed in solvent forming “inks” for the solution-based fabrication of flexible nanocrystal electronics.
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