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Nam Hoon Kim
Researcher at Chonbuk National University
Publications - 375
Citations - 28031
Nam Hoon Kim is an academic researcher from Chonbuk National University. The author has contributed to research in topics: Graphene & Supercapacitor. The author has an hindex of 69, co-authored 321 publications receiving 20753 citations. Previous affiliations of Nam Hoon Kim include Kansas State University & Center for Advanced Materials.
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Enhanced Electrochemical and Photocatalytic Performance of Core-Shell CuS@Carbon Quantum Dots@Carbon Hollow Nanospheres.
TL;DR: Results exhibit that the core-shell CuS@CQDs@C HNS nanostructure is one of the potential candidates for supercapacitors and photocatalytic applications.
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Enhancement of physical, mechanical, and gas barrier properties in noncovalently functionalized graphene oxide/poly(vinylidene fluoride) composites
TL;DR: In this article, sulfonated poly(ether-ether-ketone) functionalized graphene oxide (SPG)/poly(vinylidene fluoride) composites have been prepared by a solvent evaporation technique.
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Effects of various surfactants on the dispersion stability and electrical conductivity of surface modified graphene
TL;DR: In this paper, the effects of surfactant concentrations on the dispersibility and electrical conductivity of the surface modified graphene were investigated, and the dispersion stability of SDBS functionalized graphene (SDBS-G) was found to be best in water at 1.5 µm −1.
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Enhanced mechanical properties and proton conductivity of Nafion-SPEEK-GO composite membranes for fuel cell applications
TL;DR: In this paper, the effects of the degree of oxidation of Graphene Oxide (GO) on the physical properties of the nanocomposites have been investigated using two varieties of GOs with low degree (GO), and high degree (HGO) of oxidation.
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Novel porous gold-palladium nanoalloy network-supported graphene as an advanced catalyst for non-enzymatic hydrogen peroxide sensing.
TL;DR: The novel porous gold-palladium nanoalloy network-supported graphene (AuPd@GR) nanohybrids were successfully synthesized via electroless deposition followed by a chemical vapor deposition (CVD) method for the first time, opening a new pathway to fabricate electrocatalysts for application in high performance electrochemical sensors and bioelectronics.