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Graphene-graphene oxide-graphene hybrid nanopapers with superior mechanical, gas barrier and electrical properties
Xilian Ouyang, Wenyi Huang, Eusebio Cabrera, Jose Castro,
L. James Lee
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此作品的通信作者
生物藥學研究所
研究成果
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同行評審
19
引文 斯高帕斯(Scopus)
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Keyphrases
Graphene
100%
Electrical Properties
100%
Graphene Oxide
100%
Gas Barrier Properties
100%
Oxide Graphene
100%
Graphene Hybrids
100%
Hybrid Nanopapers
100%
Graphene Oxide Layer
66%
Nanopaper
66%
Mechanical Strength
33%
Plastic Substrate
33%
Industrial Application
33%
Benzene
33%
Functionalized Graphene
33%
Hybrid Graphene
33%
Natural Gas
33%
Fuel Cell
33%
Good Electrical Conductivity
33%
Injection Molding
33%
Composite Substrate
33%
Thermal Injection
33%
Modified Graphene
33%
Oxidized Graphene
33%
Electromagnetic Interference Shielding Effectiveness (EMI SE)
33%
Thermal Lamination
33%
Gas Diffusion Barrier
33%
Engineering
Graphene Oxide
100%
Graphene
100%
Oxide Layer
25%
Thin Films
12%
Electrical Conductivity
12%
Diffusion Barrier
12%
Electromagnetic Interference
12%
Natural Gas
12%
Industrial Applications
12%
Fuel Cell
12%
Injection Moulding
12%
Shielding Performance
12%
Material Science
Graphene
100%
Graphene Oxide
100%
Thin Films
12%
Mechanical Strength
12%
Electrical Conductivity
12%
Natural Gas
12%
Injection Molding
12%
Electromagnetic Interference Shielding
12%
Chemical Engineering
Graphene
100%
Diffusion Barrier
8%
Electromagnetic Interference Shielding
8%