Studies on Catalytic Activity of Hydrogen Peroxide Generation according to Au Shell Thickness of Pd/Au Nanocubes

Authors
Kim, InhoSeo, Myung-giChoi, ChanghyeokKim, Jin SooJung, EuiyoungHan, Geun-HoLee, Jae-ChulHan, Sang SooAhn, Jae-PyoungJung, YousungLee, Kwan-YoungYu, Taekyung
Issue Date
2018-11-07
Publisher
American Chemical Society
Citation
ACS Applied Materials & Interfaces, v.10, no.44, pp.38109 - 38116
Abstract
The catalytic properties of materials are determined by their electronic structures, which are based on the arrangement of atoms. Using precise calculations, synthesis, analysis, and catalytic activity studies, we demonstrate that changing the lattice constant of a material can modify its electronic structure and therefore its catalytic activity. Pd/Au core/shell nanocubes with a thin Au shell thickness of 1 nm exhibit high H2O2 production rates due to their improved oxygen binding energy (Delta E-O) and hydrogen binding energy (Delta E-H), as well as their reduced activation barriers for key reactions.
Keywords
DENSITY-FUNCTIONAL THEORY; BY-LAYER DEPOSITION; ELECTRONIC-PROPERTIES; LATTICE-STRAIN; GOLD-COPPER; PALLADIUM; OXYGEN; PD; REDUCTION; H2O2; DENSITY-FUNCTIONAL THEORY; BY-LAYER DEPOSITION; ELECTRONIC-PROPERTIES; LATTICE-STRAIN; GOLD-COPPER; PALLADIUM; OXYGEN; PD; REDUCTION; H2O2; Pd/Au core/shell nanocubes; thin Au layer; lattice strain; calculation; H2O2 synthesis
ISSN
1944-8244
URI
https://pubs.kist.re.kr/handle/201004/120691
DOI
10.1021/acsami.8b14166
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KIST Article > 2018
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