Issue 34, 2015

Self-assembled and pyrolyzed carbon aerogels: an overview of their preparation mechanisms, properties and applications

Abstract

An overview of the synthesis conditions and mechanisms for the fabrication of different types of carbon aerogels, as well as the structural and functional properties of these materials, is presented here. In this overview, carbon aerogels are classified into three major categories: (i) conventional pyrolyzed organic-based carbon aerogels, which are products of the pyrolysis process of organic aerogels; (ii) self-assembled carbon aerogels, which are products of a reduction process; and (iii) nanocomposite carbon aerogels. Synthesis mechanisms for the sol–gel process of organic aerogels are reviewed using different mechanisms suggested in the literature. Moreover, the overall fabrication process of self-assembled carbon aerogels (graphene and carbon nanotube aerogels) is covered and the suggested mechanism for the gelation process of self-assembled carbon aerogels during the reduction process is investigated using reported mechanisms. The structural performance and functional properties (electrochemical and thermal properties) of different types of carbon aerogels are covered in detail. Moreover, different structural features of carbon aerogels and the influence of synthesis conditions on these structural characteristics are assessed and compared. Based on the literature results covered in this review paper, carbon aerogels are perfect candidates for the fabrication of ultra-low density supercapacitors, as well as thermal insulating materials.

Graphical abstract: Self-assembled and pyrolyzed carbon aerogels: an overview of their preparation mechanisms, properties and applications

Article information

Article type
Review Article
Submitted
11 Jun 2015
Accepted
21 Jul 2015
First published
24 Jul 2015

Nanoscale, 2015,7, 14139-14158

Author version available

Self-assembled and pyrolyzed carbon aerogels: an overview of their preparation mechanisms, properties and applications

A. Allahbakhsh and A. R. Bahramian, Nanoscale, 2015, 7, 14139 DOI: 10.1039/C5NR03855C

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