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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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Flexible molecular-scale electronic devices
Nature Nanotechnology, 2012Flexible materials and devices could be exploited in light-emitting diodes, electronic circuits, memory devices, sensors, displays, solar cells and bioelectronic devices. Nanoscale elements such as thin films, nanowires, nanotubes and nanoparticles can also be incorporated into the active films of mechanically flexible devices.
Sungjun, Park +7 more
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CARBON NANOTUBE FLEXIBLE ELECTRONICS
ECS Meeting Abstracts, 2014Being mechanically flexible with superior electrical properties, thin-films of single-wall carbon nanotubes are proven to be one of the most promising material platforms for high performance flexible electronics. In this talk, I will discuss our solution-based platform for wafer-scale assembly of high-purity semiconducting carbon nanotube networks ...
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Flexible, Strechable and Healable Electronics
2018 International Flexible Electronics Technology Conference (IFETC), 2018Organic electronics, based on semiconducting and conducting polymers, have been extensively investigated in the past two decades and have found commercial applications in lighting panels, smartphone and TV screens using OLEDs (organic light emitting diodes) technology. Many other applications are foreseen to reach the commercial maturity in future in
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Flexible Transparent Electronic Gas Sensors
Small, 2016Flexible and transparent electronic gas sensors capable of real-time, sensitive, and selective analysis at room-temperature, have gained immense popularity in recent years for their potential to be integrated into various smart wearable electronics and display devices.
Ting, Wang +5 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.
Hirotaka Koga, Masaya Nogi
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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.
Hirotaka Koga, Masaya Nogi
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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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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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ACM SIGDA Newsletter, 2009
Flexible electronics has recently attracted much attention because of their potential in providing cost-efficient solutions to large-area applications such as rollable displays and TVs, e-paper, smart sensors and transparent RFIDs. The key advantages of flexible electronics, compared with current silicon technologies, are low-cost manufacturing (e.g ...
Cheng, Tim Kwang-Ting +1 more
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Flexible electronics has recently attracted much attention because of their potential in providing cost-efficient solutions to large-area applications such as rollable displays and TVs, e-paper, smart sensors and transparent RFIDs. The key advantages of flexible electronics, compared with current silicon technologies, are low-cost manufacturing (e.g ...
Cheng, Tim Kwang-Ting +1 more
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Low-temperature growth of MoS2 on polymer and thin glass substrates for flexible electronics
Nature Nanotechnology, 2023Anh Tuấn Hoàng +14 more
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