Issue 21, 2015

Electro-active shape memory composites enhanced by flexible carbon nanotube/graphene aerogels

Abstract

In this manuscript we present a novel, shape memory aerogel/epoxy composite structure composed of a reduced carbon nanotube and graphene compound aerogel as a scaffold and epoxy resin as a matrix. The composite was prepared via a vacuum infusion method and to the best of our knowledge it represents the first instance of a shape memory effect directly driven by an electrical field observable in polymer-infused conductive carbon scaffolds. Furthermore, the composite material obtained displays a high conductivity (i.e., up to 5.2 S m−1). In the manuscript it is shown that the composite's high conductivity can be attributed to the built-in 3D network of the thermally reduced graphene and carbon nanotube compound aerogel which displays high conductivity (16 S m−1) coupled with low density (6 mg mL−1). The composite material presented in this work is likely a suitable candidate for applications requiring polymer-infused conductive aerogels such as electromagnetic shielding, actuators and thermal sensors.

Graphical abstract: Electro-active shape memory composites enhanced by flexible carbon nanotube/graphene aerogels

Article information

Article type
Paper
Submitted
07 Apr 2015
Accepted
22 Apr 2015
First published
22 Apr 2015

J. Mater. Chem. A, 2015,3, 11641-11649

Author version available

Electro-active shape memory composites enhanced by flexible carbon nanotube/graphene aerogels

X. Liu, H. Li, Q. Zeng, Y. Zhang, H. Kang, H. Duan, Y. Guo and H. Liu, J. Mater. Chem. A, 2015, 3, 11641 DOI: 10.1039/C5TA02490K

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