Surface study of Pt-3d transition metal alloys, Pt3M (M = Ti, V), under CO oxidation reaction with ambient pressure x-ray photoelectron spectroscopy

Moon-Sic Jung, Dongwoo Kim, Hojoon Lim, M. Seo, Geonhwa Kim, Luciana Ramirez, F. Bournel, J. Gallet, Ki-jeong Kim, B. Mun
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Abstract

Utilizing ambient pressure x-ray photoelectron spectroscopy, the surface segregation and the oxidation dynamics of platinum (Pt)-3d transition metal (M) alloys, Pt3M (M = Ti, V), are investigated. Under oxygen-rich conditions, i.e., P(CO)/P(O2) = 0.1, Pt3V surface forms Pt skin layer while Pt3Ti shows the presence of both Ti and Pt atoms. As temperature increases to 450 K, V atoms make surface segregation to form oxide while Ti atoms start to form various Ti oxides (Ti2O3 and TiOx) on the surface. When CO oxidation occurs at 600 K, the oxidation continues on both surfaces of Pt3M (M = Ti, V), showing the enhancement of TiOx for Pt3Ti and V2O5 and VOx for Pt3V. Also, during CO oxidation, a sign of pure metallic Pt state is found at Pt 4f spectra in both surfaces, suggesting the redistribution of electrons from the transition metals during the oxide formation.
用环境压力x射线光电子能谱研究CO氧化反应下Pt-3d过渡金属合金Pt3M (M = Ti, V)的表面
利用环境压力x射线光电子能谱研究了铂(Pt)-三维过渡金属(M)合金Pt3M (M = Ti, V)的表面偏析和氧化动力学。在富氧条件下,即P(CO)/P(O2) = 0.1时,Pt3V表面形成Pt皮层,而Pt3Ti则同时存在Ti和Pt原子。当温度升高到450 K时,V原子在表面偏析形成氧化物,而Ti原子在表面形成各种Ti氧化物(Ti2O3和TiOx)。当600 K发生CO氧化时,Pt3M (M = Ti, V)的两个表面继续氧化,显示出TiOx对Pt3Ti和V2O5的增强和VOx对Pt3V的增强。此外,在CO氧化过程中,在两个表面的Pt 4f光谱中都发现了纯金属Pt态的迹象,这表明在氧化物形成过程中过渡金属的电子重新分配。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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