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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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A novel sensitive sensor for serotonin based on high-quality of AuAg nanoalloy encapsulated graphene electrocatalyst.
TL;DR: The obtained results imply that a high quality graphene-encapsulated AuAg alloy (AuAg-GR) nanohybrid is a potential candidate for synthesizing electrochemical sensors in requirement of high sensitivity, long-term stability, and good reproducibility.
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Facile synthesis of CuCo2O4 composite octahedrons for high performance supercapacitor application
TL;DR: In this article, the authors reported the synthesis of single crystalline CuCo2O4 octahedrons and their application in a supercapacitor using the ethylenediaminetetraacetic acid assisted hydrothermal approach.
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Hybridized bimetallic phosphides of Ni–Mo, Co–Mo, and Co–Ni in a single ultrathin-3D-nanosheets for efficient HER and OER in alkaline media
Mani Ram Kandel,Uday Narayan Pan,Dasu Ram Paudel,Purna Prasad Dhakal,Nam Hoon Kim,Joong Hee Lee +5 more
TL;DR: In this paper , a hybridization of three bimetallic phosphides, nickel-molybdenum (Ni-Mo), cobalt-naphase (CoMo), and cobaltnickel (CoNi), in single ultrathin-3D-nanosheets on nickel foam was carried out to fabricate an active and robust trimetallic metal-phosphide electrocatalyst for overall electrochemical water splitting.
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Effects of covalent surface modifications on the electrical and electrochemical properties of graphene using sodium 4-aminoazobenzene-4′-sulfonate
TL;DR: In this article, two types of water dispersible graphene were synthesized by the reaction of graphene oxide (GO) with sodium 4-aminoazobenzene-4′-sulfonate (SAS) and its aryl diazonium salt (ADS).
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Hierarchical material of carbon nanotubes grown on carbon nanofibers for high performance electrochemical capacitor
TL;DR: In this paper, a hierarchical nanostructure of carbon nanotubes supported electrospun carbon nanofiber networks (CNTs@CNFs) was successfully fabricated by using two facile techniques: electrospinning and chemical vapor deposition (CVD).