S
Scott Gilje
Researcher at University of California, Los Angeles
Publications - 7
Citations - 10868
Scott Gilje is an academic researcher from University of California, Los Angeles. The author has contributed to research in topics: Graphene & Graphite. The author has an hindex of 6, co-authored 7 publications receiving 10262 citations. Previous affiliations of Scott Gilje include California NanoSystems Institute.
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Processable aqueous dispersions of graphene nanosheets
TL;DR: It is reported that chemically converted graphene sheets obtained from graphite can readily form stable aqueous colloids through electrostatic stabilization, making it possible to process graphene materials using low-cost solution processing techniques, opening up enormous opportunities to use this unique carbon nanostructure for many technological applications.
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A Chemical Route to Graphene for Device Applications
TL;DR: Electric conductivity measurements indicate a 10000-fold increase in conductivity after chemical reduction to graphene, and temperature-dependent conductivity indicates that the graphene-like sheets exhibit semiconducting behavior.
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Graphene-like nano-sheets for surface acoustic wave gas sensor applications
Rashida Arsat,Michael Breedon,Mahnaz Shafiei,Paul Spizziri,Scott Gilje,Richard B. Kaner,Kourosh Kalantar-zadeh,Wojtek Wlodarski +7 more
TL;DR: The gas sensing properties of graphene-like nano-sheets deposited on 36° YX lithium tantalate (LiTaO3) surface acoustic wave (SAW) transducers are reported in this paper.
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Electrical conductivity of graphite/polystyrene composites made from potassium intercalated graphite
TL;DR: In this article, a composite made by radical polymerization of styrene containing the same amount of dispersed graphite was shown to have an electrical conductivity of 1.3 S/S/cm.
Journal Article
Graphene-like nano-sheets/36° LiTaO3 surface acoustic wave hydrogen gas sensor
Rashidah Arsat,Michael Breedon,Mahnaz Shafiei,Kourosh Kalantar-zadeh,Wojtek Wlodarski,Scott Gilje,Richard B. Kaner,Francisco J. Arregui +7 more
TL;DR: In this paper, the material and gas sensing properties of graphene-like nano-sheets deposited on 36° YX lithium tantalate (LiTaO3) surface acoustic wave transducers were investigated.