Issue 24, 2013

High concentration and stable few-layer graphene dispersions prepared by the exfoliation of graphite in different organic solvents

Abstract

A series of stable graphene dispersions in different organic solvents were prepared by the liquid-phase exfoliation of microcrystalline graphite. The pristine graphite was heat-treated in N-methyl-2-pyrrolidone before it was exfoliated in solvents containing 0.1 mg mL−1 polyvinyl pyrrolidone (PVP). X-ray diffraction and scanning electron microscopy (SEM) results implied that the interlayer spacing of graphite increased after the heat treatment. The increased interlayer spacing makes it favorable for organic molecules to enter the lattice of graphite, and is helpful in the exfoliation of graphite for the production of graphene flakes. High resolution transmission electron microscopy (HRTEM) and Raman spectroscopy indicated that the resulting graphene flakes are high-quality products without any significant structural defects. Atomic force microscopy (AFM) showed that the graphene flakes consist of single-to-few layer graphene, and also demonstrated that the concentration of PVP is an essential factor in the deposition of graphene flakes onto a mica substrate. More importantly, the resulting graphene dispersions can be used to fabricate graphene films and disk arrays on quartz glass. Therefore, it is possible that the graphene dispersions in this study can be used for the preparation of large-area graphene films on different substrates.

Graphical abstract: High concentration and stable few-layer graphene dispersions prepared by the exfoliation of graphite in different organic solvents

Article information

Article type
Paper
Submitted
03 Feb 2013
Accepted
04 Apr 2013
First published
05 Apr 2013

RSC Adv., 2013,3, 9490-9499

High concentration and stable few-layer graphene dispersions prepared by the exfoliation of graphite in different organic solvents

E. Ou, Y. Xie, C. Peng, Y. Song, H. Peng, Y. Xiong and W. Xu, RSC Adv., 2013, 3, 9490 DOI: 10.1039/C3RA40602D

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