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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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Memristors With Flexible Electronic Applications
Proceedings of the IEEE, 2012In addition to the potential for memristors to be used in logic, memory, smart interconnects, and biologically inspired architectures that could transform traditional silicon-based computing, memristors may enable such transformative technologies on physically flexible substrates.
Nadine Gergel-Hackett +2 more
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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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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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2015
This book provides a comprehensive overview of the recent development of flexible electronics. This is a fast evolving research field and tremendous progress has been made in the past decade. In this book, new material development and novel flexible device, circuit design, fabrication and characterizations will be introduced.
Shen, Guozhen, Fan, Zhiyong
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This book provides a comprehensive overview of the recent development of flexible electronics. This is a fast evolving research field and tremendous progress has been made in the past decade. In this book, new material development and novel flexible device, circuit design, fabrication and characterizations will be introduced.
Shen, Guozhen, Fan, Zhiyong
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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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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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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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Patterning Processes for Flexible Electronics
Proceedings of the IEEE, 2015Patterning functional materials is one of the key technologies to enable flexible electronics. In almost every flexible electronic device, individual materials and layers need to be patterned. Moreover, the importance of patterning is probably second only to materials properties in fabricated flexible functional devices.
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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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