Customizable assembly of free-standing integrated electronics for wearables by phase separation

The non-solvent induced phase separation method is utilized to produce a free-standing electrode with good conductivity retention during 1000 bending/stretching cycles. The as-prepared electrode has been fabricated for an integrated device consisting of an ethanol fuel cell, a supercapacitor and a m...

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Veröffentlicht in:	Chemical communications (Cambridge, England) England), 2022-12, Vol.58 (96), p.13341-13344
Hauptverfasser:	Ma, Hongting, Chen, Chuanrui, Cheng, Peihao, Yang, Kaizhou, Geng, Xiaodong, Ma, Junlin, Lv, Fengjuan, Jiang, Yue, Liu, Quanli, Su, Yan, Li, Jian, Zhu, Nan
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Sprache:	eng
Schlagworte:	Electrodes Electronics Ethanol Fuel cells Motion sensors Phase separation Wearable technology
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container_end_page	13344
container_issue	96
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container_title	Chemical communications (Cambridge, England)
container_volume	58
creator	Ma, Hongting Chen, Chuanrui Cheng, Peihao Yang, Kaizhou Geng, Xiaodong Ma, Junlin Lv, Fengjuan Jiang, Yue Liu, Quanli Su, Yan Li, Jian Zhu, Nan
description	The non-solvent induced phase separation method is utilized to produce a free-standing electrode with good conductivity retention during 1000 bending/stretching cycles. The as-prepared electrode has been fabricated for an integrated device consisting of an ethanol fuel cell, a supercapacitor and a motion sensor. This method for fabricating free-standing electronics reveals a cost-effective approach towards wearable devices. A free-standing electronic device, including an ethanol fuel cell, a supercapacitor and a motion sensor, was fabricated by non-solvent induced phase separation.
doi_str_mv	10.1039/d2cc05043a
format	Article
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subjects	Electrodes Electronics Ethanol Fuel cells Motion sensors Phase separation Wearable technology
title	Customizable assembly of free-standing integrated electronics for wearables by phase separation
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