Structuring dense three-dimensional sheet-like skeleton networks in biomass-derived carbon aerogels for efficient electromagnetic interference shielding

Zi-Han Zhou; Ying Liang; Hua-Dong Huang; Lei Li; Biao Yang; Meng-Zhu Li; Ding-Xiang Yan; Jun Lei; Zhong-Ming Li

doi:https://doi.org/10.1016/j.carbon.2019.06.027

doi.org/10.1016/j.carbon.2019.06.027

Structuring dense three-dimensional sheet-like skeleton networks in biomass-derived carbon aerogels for efficient electromagnetic interference shielding

,

,

..., Zhong-Ming Li

72

Carbon10.90

Volume: 152, Pages: 316 - 324

Published: Nov 1, 2019

Abstract

Developing ultralight, highly conductive carbon aerogels with facilely tunable microscopic structure is still a long-standing issue to effectively shield the electromagnetic interference (EMI). Here, highly porous and conductive all biomass-derived carbon aerogels were first successfully achieved by carbonizing cellulose aerogels, which held excellent structure designability by controlling cellulose content in lithium hydroxide/urea aqueous...

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Paper Details

Title

Structuring dense three-dimensional sheet-like skeleton networks in biomass-derived carbon aerogels for efficient electromagnetic interference shielding

DOI

doi.org/10.1016/j.carbon.2019.06.027

Published Date

Nov 1, 2019

Journal

Carbon

Volume

152

Pages

316 - 324

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