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Lee, Zonghoon
Atomic-Scale Electron Microscopy (ASEM) Lab
Research Interests
  • Advanced Transmission Electron Microscopy (TEM/STEM), in Situ TEM, graphene, 2D materials, low-dimensional crystals, nanostructured materials


Thermally driven phase transition of cobalt hydroxide sheets via cobalt oxides to cobalt nanoparticles

DC Field Value Language Yoon, Aram ko Kim, Gyutae ko Lee, Minjeong ko Lee, Zonghoon ko Ryu, Gyoeng Hee ko 2022-08-26T05:40:51Z - 2022-08-24 ko 2022-07 ko
dc.identifier.citation NANOSCALE HORIZONS, v.7, no.10, pp.1210 - 1216 ko
dc.identifier.issn 2055-6756 ko
dc.identifier.uri -
dc.description.abstract Transition metal oxides, which include many stoichiometric variations, are formed into various crystal structures by the atomic arrangement of cations and anions according to stoichiometric composition and are used for a wide range of applications based on this. Among them, cobalt oxide, which has wide crystal structures depending on the lattice points of the anion and the valence of the Co cation, from its hydroxide formula, is attracting a lot of attention due to its interesting catalytic properties due to its crystal structure. In this study, using the synthesized Co(OH)(2) nanosheets, the real-time behavior of the phase transition that occurs when continuous heat is applied to the sample has been systematically analyzed using an aberration-corrected scanning transmission electron microscope. The layered Co(OH)(2) phase passes through hexagonal CoO and cubic CoO phases to finally become Co nanoparticles, but when the temperature is dropped in the hexagonal phase, spinel Co3O4 is formed. These results suggest that various phases included in transition metal oxides can be selectively implemented according to temperature range control. ko
dc.language 영어 ko
dc.publisher ROYAL SOC CHEMISTRY ko
dc.title Thermally driven phase transition of cobalt hydroxide sheets via cobalt oxides to cobalt nanoparticles ko
dc.type ARTICLE ko
dc.identifier.scopusid 2-s2.0-85135960931 ko
dc.identifier.wosid 000837400100001 ko
dc.type.rims ART ko
dc.identifier.doi 10.1039/d2nh00218c ko
dc.identifier.url ko
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