Ultra-high dispersion of graphene in polymer composite via solvent free fabrication and functionalization

Authors
Noh, Ye JiJoh, Han-IkYu, JaesangHwang, Soon HyounLee, SunghoLee, Cheol HoKim, Seong YunYoun, Jae Ryoun
Issue Date
2015-03-16
Publisher
NATURE PUBLISHING GROUP
Citation
SCIENTIFIC REPORTS, v.5
Abstract
The drying process of graphene-polymer composites fabricated by solution-processing for excellent dispersion is time consuming and suffers from a restacking problem. Here, we have developed an innovative method to fabricate polymer composites with well dispersed graphene particles in the matrix resin by using solvent free powder mixing and in-situ polymerization of a low viscosity oligomer resin. We also prepared composites filled with up to 20 wt% of graphene particles by the solvent free process while maintaining a high degree of dispersion. The electrical conductivity of the composite, one of the most significant properties affected by the dispersion, was consistent with the theoretically obtained effective electrical conductivity based on the mean field micromechanical analysis with the Mori-Tanaka model assuming ideal dispersion. It can be confirmed by looking at the statistical results of the filler-to-filler distance obtained from the digital processing of the fracture surface images that the various oxygenated functional groups of graphene oxide can help improve the dispersion of the filler and that the introduction of large phenyl groups to the graphene basal plane has a positive effect on the dispersion.
Keywords
EXFOLIATED GRAPHITE OXIDE; IN-SITU POLYMERIZATION; THERMAL-CONDUCTIVITY; ENHANCED DISPERSION; LARGE-AREA; REDUCTION; CARBON; NANOCOMPOSITES; FILMS; FIELD; EXFOLIATED GRAPHITE OXIDE; IN-SITU POLYMERIZATION; THERMAL-CONDUCTIVITY; ENHANCED DISPERSION; LARGE-AREA; REDUCTION; CARBON; NANOCOMPOSITES; FILMS; FIELD; 복합소재; Composite; 그래핀; Graphene; 분산; Dispersion; Powder mixing; In-situ polymerization; Micromechanics; Modeling
ISSN
2045-2322
URI
https://pubs.kist.re.kr/handle/201004/125661
DOI
10.1038/srep09141
Appears in Collections:
KIST Article > 2015
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