Conductive mechanism of polymer/graphite conducting composites with low percolation threshold

Preparation of the conducting composites of polystyrene/expanded graphite via in situ polymerization and investigation of the conductive mechanism were carried out. They are characterized by high conductivity and a low percolation threshold. The electrical conductivity reached 10−2 S/cm with 3.0 vol...

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Published in:Journal of polymer science. Part B, Polymer physics Polymer physics, 2002-05, Vol.40 (10), p.954-963
Main Authors: Zou, Jun-Feng, Yu, Zhong-Zhen, Pan, Yu-Xun, Fang, Xiao-Ping, Ou, Yu-Chun
Format: Article
Language:English
Subjects:
Applied sciences
Composites
conducting composites
Exact sciences and technology
expanded graphite
Forms of application and semi-finished materials
nylon-6
percolation threshold
Polymer industry, paints, wood
polystyrene
Technology of polymers
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Summary:Preparation of the conducting composites of polystyrene/expanded graphite via in situ polymerization and investigation of the conductive mechanism were carried out. They are characterized by high conductivity and a low percolation threshold. The electrical conductivity reached 10−2 S/cm with 3.0 vol % expanded graphite content, whereas the percolation threshold was 1.0 vol %. Optical micrographs revealed the heterogeneous distribution of the graphite particles and the formation of a conductive network in the polymer matrix. A model of primary particle was proposed to interpret the conductive phenomena. The primary particle is the basic conductive unit in the composites that comprises three of the following parts: the graphite particle, the compact‐adsorbed layer, and the wrapping shell. Our model was also used to explain the experimental data in our previous studies on nylon‐6/expanded graphite composites. A low percolation threshold of conducting composites can be also explained according to the model of the primary particle. Furthermore, the theoretical line of conductivity versus primary particle content calculated from the revised Flory's theory fits the experimental data well. © 2002 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 40: 954–963, 2002
ISSN:0887-6266
1099-0488
DOI:10.1002/polb.10141