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Size Effects of Core-Shell CoOx-Co(OH)2 Nanocatalysts in Oxygen Electrocatalysis

Author(s)
서보라사영진Joo, Sang Hoon
Issued Date
2015-04-22
URI
https://scholarworks.unist.ac.kr/handle/201301/43460
Citation
2015 Korean Institute of Chemical Engineers Spring Meeting
Abstract
Recently, unitized regenerative fuel cell (URFC), which is combined system of electrolyzer and fuel cell, has attracted much attention. URFC can maximize the usage of renewable energy sources by saving the leftover chemical fuels through electrolyzer, which can be later used when the renewable energy sources are unavailable. The key element for improvement of URFC performance is dictated by the development of bifunctional catalysts which promote both oxygen reduction reaction (ORR) and oxygen evolution reaction (OER). As bifunctional catalysts, cobalt nanoparticles (Co NPs) with controlled particle sizes (3.0, 6.2, 7.7, and 9.1 nm) were synthesized and supported on highly conductive carbon nanotubes, affording Co/CNTs. High-resolution TEM as well as extended X-ray absorption fine structure spectra over Co/CNTs revealed that crystal phase of 6.2, 7.7 and 9.1 nm Co NPs is predominantly composed of CoO core and Co(OH)2 shell whereas the smallest 3.0 nm Co NPs consists of Co3O4 core and Co(OH)2 shell. With the core-shell structured nanoparticles on CNTs, size dependent electrocatalytic activities toward ORR and OER in alkaline solution were investigated.
Publisher
Korean Institute of Chemical Engineers(KIChE)

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