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A Combined Photoelectron Spectroscopy and ab Initio Study of the Adsorbate System O2/PbTe(001) and the Oxide Layer Growth Kinetics

The adsorption of molecular oxygen on PbTe(001) surfaces has been investigated using synchrotron radiation induced photoelectron spectroscopy (BESSY II, Berlin). The behavior of adsorbate system O2/PbTe(001) was also modeled in complementary DFT-B3LYP studies using a large-cluster approach. For seve...

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Published in:	Journal of physical chemistry. C 2008-12, Vol.112 (50), p.19995-20006
Main Authors:	Yashina, Lada V, Zyubina, Tatiana S, Püttner, Ralph, Zyubin, Alexander S, Shtanov, Vladimir I, Tikhonov, Egor V
Format:	Article
Language:	English
Subjects:	C: Surfaces, Interfaces, Catalysis
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container_end_page	20006
container_issue	50
container_start_page	19995
container_title	Journal of physical chemistry. C
container_volume	112
creator	Yashina, Lada V Zyubina, Tatiana S Püttner, Ralph Zyubin, Alexander S Shtanov, Vladimir I Tikhonov, Egor V
description	The adsorption of molecular oxygen on PbTe(001) surfaces has been investigated using synchrotron radiation induced photoelectron spectroscopy (BESSY II, Berlin). The behavior of adsorbate system O2/PbTe(001) was also modeled in complementary DFT-B3LYP studies using a large-cluster approach. For several possible adsorption structures, the adsorption enthalpies, the changes of the effective charges, and the core-level shifts induced by adsorption were calculated. For the energetically most favorable adsorption structures, the calculated chemical shifts are in good agreement with the experimental observations. Oxidation was observed at exposures above ∼105 L of O2. In total, three steps of oxidation were observed. The first step of the reaction is associated with the formation of Te−O−Pb bonds resulting in Te0 states. The subsequent second step is characterized by a Te0→Te4+ transformation with three O atoms attaching to each surface Te atom. As a result, −TeO3 2− species are formed. The third step is associated with the growth of the planar layer of PbTeO3. In the range of exposures from 1011 to 1015 L, the kinetics of this layer growth can be described with the time-logarithmic law. The oxide growth rate does not depend on the presence of water vapor.
doi_str_mv	10.1021/jp804153g
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subjects	C: Surfaces, Interfaces, Catalysis
title	A Combined Photoelectron Spectroscopy and ab Initio Study of the Adsorbate System O2/PbTe(001) and the Oxide Layer Growth Kinetics
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