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Choi, Moon Kee
Nano/Bio Electronics Lab.
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Deformable devices with integrated functional nanomaterials for wearable electronics

Author(s)
Kim, JaeminLee, JongsuSon, DongheeChoi, Moon KeeKim, Dae-Hyeong
Issued Date
2016-03
DOI
10.1186/s40580-016-0062-1
URI
https://scholarworks.unist.ac.kr/handle/201301/26240
Fulltext
https://nanoconvergencejournal.springeropen.com/articles/10.1186/s40580-016-0062-1
Citation
NANO CONVERGENCE, v.3, pp.1 - 13
Abstract
As the market and related industry for wearable electronics dramatically expands, there are continuous and strong demands for flexible and stretchable devices to be seamlessly integrated with soft and curvilinear human skin or clothes. However, the mechanical mismatch between the rigid conventional electronics and the soft human body causes many problems. Therefore, various prospective nanomaterials that possess a much lower flexural rigidity than their bulk counterparts have rapidly established themselves as promising electronic materials replacing rigid silicon and/or compound semiconductors in next-generation wearable devices. Many hybrid structures of multiple nanomaterials have been also developed to pursue both high performance and multifunctionality. Here, we provide an overview of state-of-the-art wearable devices based on one-or two-dimensional nanomaterials (e.g., carbon nanotubes, graphene, single-crystal silicon and oxide nanomembranes, organic nanomaterials and their hybrids) in combination with zero-dimensional functional nanomaterials (e.g., metal/oxide nanoparticles and quantum dots). Starting from an introduction of materials strategies, we describe device designs and the roles of individual ones in integrated systems. Detailed application examples of wearable sensors/actuators, memories, energy devices, and displays are also presented.
Publisher
SPRINGEROPEN
ISSN
2196-5404
Keyword (Author)
Silicon nanomembraneFunctional nanomaterialsFlexible electronicsStretchable electronicsWearable electronics

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