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Cited 91 time in webofscience Cited 92 time in scopus
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Soft, thin skin-mounted power management systems and their use in wireless thermography

Authors
Lee, Jung WooXu, RenxiaoLee, SeungminJang, Kyung-InYang, YichenBanks, AnthonyYu, Ki JunKim, JeonghyunXu, ShengMa, SiyiJang, Sung WooWon, PhillipLi, YuhangKim, Bong HoonChoe, Jo YoungHuh, SoojeongKwon, Yong HoHuang, YonggangPaik, UngyuRogers, John A.
Issue Date
May-2016
Publisher
National Academy of Sciences
Keywords
solid-state lithium-ion battery; multijunction solar cell; stretchable electronics; energy management; wearable technology
Citation
Proceedings of the National Academy of Sciences of the United States of America, v.113, no.22, pp 6131 - 6136
Pages
6
Indexed
SCIE
SCOPUS
Journal Title
Proceedings of the National Academy of Sciences of the United States of America
Volume
113
Number
22
Start Page
6131
End Page
6136
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/23131
DOI
10.1073/pnas.1605720113
ISSN
0027-8424
1091-6490
Abstract
Power supply represents a critical challenge in the development of body-integrated electronic technologies. Although recent research establishes an impressive variety of options in energy storage (batteries and supercapacitors) and generation (triboelectric, piezoelectric, thermoelectric, and photovoltaic devices), the modest electrical performance and/or the absence of soft, biocompatible mechanical properties limit their practical use. The results presented here form the basis of soft, skin-compatible means for efficient photovoltaic generation and high-capacity storage of electrical power using dual-junction, compound semiconductor solar cells and chip-scale, rechargeable lithium-ion batteries, respectively. Miniaturized components, deformable interconnects, optimized array layouts, and dual-composition elastomer substrates, superstrates, and encapsulation layers represent key features. Systematic studies of the materials and mechanics identify optimized designs, including unusual configurations that exploit a folded, multilayer construct to improve the functional density without adversely affecting the soft, stretchable characteristics. System-level examples exploit such technologies in fully wireless sensors for precision skin thermography, with capabilities in continuous data logging and local processing, validated through demonstrations on volunteer subjects in various realistic scenarios.
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