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The high renaissance properties of porous three dimensional graphene using one step reduction and its application in flexible conductor

Feng, Chunfang, Yi, Zhifeng, Kong, Lingxue and Peng, Zheng 2015, The high renaissance properties of porous three dimensional graphene using one step reduction and its application in flexible conductor, in Proceedings of the 2014 International Conference on Materials Science and Energy Engineering; CMSEE 2014 conference proceedings, World Scientific Publishing, Hackensack, NJ, pp. 47-52.

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Title The high renaissance properties of porous three dimensional graphene using one step reduction and its application in flexible conductor
Author(s) Feng, Chunfang
Yi, Zhifeng
Kong, LingxueORCID iD for Kong, Lingxue orcid.org/0000-0001-6219-3897
Peng, Zheng
Conference name International Conference on Materials Science and Energy Engineering (2014: Sanya, China)
Conference location Sanya, China
Conference dates 12-14 Dec. 20014
Title of proceedings Proceedings of the 2014 International Conference on Materials Science and Energy Engineering; CMSEE 2014 conference proceedings
Editor(s) Chung,SL
Li,X
Publication date 2015
Start page 47
End page 52
Total pages 6
Publisher World Scientific Publishing
Place of publication Hackensack, NJ
Keyword(s) Science & Technology
Technology
Energy & Fuels
Materials Science, Multidisciplinary
Materials Science
Porous 3D Graphene
High Renaissance Properties
One Step Reduction
Flexible Conductor
GAMMA-RAY IRRADIATION
GASEOUS-PHASE
OXIDE
Summary  A super conductive graphene with continuous three dimensional (3D) porous structures that can potentially be used as flexible conductors has been produced by one step reduction of graphene oxide (GO) film. The high renaissance properties have been demonstrated by mechanical and electrical results where a noticeable increase in the electrical conductivity to 3850 S/cm has been demonstrated after embedding the 3D graphene foam into nearly insulated polydimethylsiloxane (PDMS). The graphene integrated PDMS film has a higher strain up to 100% elongation compared with the strain of only 60% for PDMS. Fourier transform infrared (FTIR) and x-ray photoemission spectroscopy (XPS) results reveal that most oxidized groups have been removed, which contributes to the renaissance of most outstanding properties of graphene because of the recovery of sp2 carbon structures.
ISBN 9789814678964
Language eng
Field of Research 090699 Electrical and Electronic Engineering not elsewhere classified
Socio Economic Objective 861699 Computer Hardware and Electronic Equipment not elsewhere classified
HERDC Research category E1 Full written paper - refereed
ERA Research output type E Conference publication
Copyright notice ©2015, World Scientific Publishing
Persistent URL http://hdl.handle.net/10536/DRO/DU:30075882

Document type: Conference Paper
Collection: Institute for Frontier Materials
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