Role of different Pd/Pt ensembles in determining CO chemisorption on Au-based bimetallic alloys: A first-principles study

Authors
Ham, Hyung ChulManogaran, DhivyaHwang, Gyeong S.Han, JongheeKim, Hyoung-JuhnNam, Suk WooLim, Tae Hoon
Issue Date
2015-03-30
Publisher
ELSEVIER
Citation
APPLIED SURFACE SCIENCE, v.332, pp.409 - 418
Abstract
Using spin-polarized density functional calculations, we investigate the role of different Pd/Pt ensembles in determining CO chemisorption on Au-based bimetallic alloys through a study of the energetics, charge transfer, geometric and electronic structures of CO on various Pd/Pt ensembles (monomer/dimer/trimer/tetramer). We find that the effect of Pd ensembles on the reduction of CO chemisorption energy is much larger than the Pt ensemble case. In particular, small-sized Pd ensembles like monomer show a substantial reduction of CO chemisorption energy compared to the pure Pd (1 1 1) surface, while there are no significant size and shape effects of Pt ensembles on CO chemisorption energy. This is related to two factors: (1) the steeper potential energy surface (PES) of CO in Pd (1 1 1) than in Pt (1 1 1), indicating that the effect of switch of binding site preference on CO chemisorption energy is much larger in Pd ensembles than in Pt ensembles, and (2) down-shift of d-band in Pd ensembles/up-shift of d-band in Pt ensembles as compared to the corresponding pure Pd (1 1 1)/Pt (1 1 1) surfaces, suggesting more reduced activity of Pd ensembles toward CO adsorption than the Pt ensemble case. We also present the different bonding mechanism of CO on Pd/Pt ensembles by the analysis of orbital resolved density of state. (C) 2015 Elsevier B.V. All rights reserved.
Keywords
ADSORPTION; REACTIVITY; PT(111); HYDROGENATION; TRANSITION; OXYGEN; GOLD; H2O2; H-2; ADSORPTION; REACTIVITY; PT(111); HYDROGENATION; TRANSITION; OXYGEN; GOLD; H2O2; H-2; Ensembles; CO adsorption; First-principles; AuPd; AuPt
ISSN
0169-4332
URI
https://pubs.kist.re.kr/handle/201004/125640
DOI
10.1016/j.apsusc.2015.01.182
Appears in Collections:
KIST Article > 2015
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