Flexible Holey Graphene Paper Electrodes with Enhanced Rate Capability for Energy Storage Applications

Overview

Journal ACS Nano

Publisher American Chemical Society

Specialty Biotechnology

Date 2011 Oct 11

PMID 21980979

Citations 36

Authors

Xin Zhao

Cary M Hayner

Mayfair C Kung

Harold H Kung

Affiliations

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Abstract

The unique combination of high surface area, high electrical conductivity and robust mechanical integrity has attracted great interest in the use of graphene sheets for future electronics applications. Their potential applications for high-power energy storage devices, however, are restricted by the accessible volume, which may be only a fraction of the physical volume, a consequence of the compact geometry of the stack and the ion mobility. Here we demonstrated that remarkably enhanced power delivery can be realized in graphene papers for the use in Li-ion batteries by controlled generation of in-plane porosity via a mechanical cavitation-chemical oxidation approach. These flexible, holey graphene papers, created via facile microscopic engineering, possess abundant ion binding sites, enhanced ion diffusion kinetics, and excellent high-rate lithium-ion storage capabilities, and are suitable for high-performance energy storage devices.

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