Stretchable, Porous, and Conductive Energy Textiles

Overview

Journal Nano Lett

Publisher American Chemical Society

Specialty Biotechnology

Date 2010 Jan 7

PMID 20050691

Citations 103

Authors

Liangbing Hu

Mauro Pasta

Fabio La Mantia

Lifeng Cui

Sangmoo Jeong

Heather Dawn Deshazer

Jang Wook Choi

Seung Min Han

Yi Cui

Affiliations

Soon will be listed here.

Abstract

Recently there is strong interest in lightweight, flexible, and wearable electronics to meet the technological demands of modern society. Integrated energy storage devices of this type are a key area that is still significantly underdeveloped. Here, we describe wearable power devices using everyday textiles as the platform. With an extremely simple "dipping and drying" process using single-walled carbon nanotube (SWNT) ink, we produced highly conductive textiles with conductivity of 125 S cm(-1) and sheet resistance less than 1 Omega/sq. Such conductive textiles show outstanding flexibility and stretchability and demonstrate strong adhesion between the SWNTs and the textiles of interest. Supercapacitors made from these conductive textiles show high areal capacitance, up to 0.48F/cm(2), and high specific energy. We demonstrate the loading of pseudocapacitor materials into these conductive textiles that leads to a 24-fold increase of the areal capacitance of the device. These highly conductive textiles can provide new design opportunities for wearable electronics and energy storage applications.

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