Molecules (Sep 2021)

Shape-Memory and Anisotropic Carbon Aerogel from Biomass and Graphene Oxide

  • Zilu Lin,
  • Wenzhao Jiang,
  • Zehong Chen,
  • Linxin Zhong,
  • Chuanfu Liu

DOI
https://doi.org/10.3390/molecules26185715
Journal volume & issue
Vol. 26, no. 18
p. 5715

Abstract

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Biomass, as the most abundant and sustainable resource on the earth, has been regarded as an ideal carbon source to prepare various carbon materials. However, manufacturing shape-memory carbon aerogels with excellent compressibility and elasticity from biomass remains an open challenge. Herein, a cellulose-derived carbon aerogel with an anisotropic architecture is fabricated with the assistance of graphene oxide (GO) through a directional freeze-drying process and carbonization. The carbon aerogel displays excellent shape-memory performances, with high stress and height retentions of 93.6% and 95.5% after 1000 compression cycles, respectively. Moreover, the carbon aerogel can identify large ranges of compression strain (10–80%), and demonstrates excellent current stability during cyclic compression. The carbon aerogel can precisely capture a variety of biological signals in the human body, and thus can be used in wearable electronic devices.

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