Acetone-assisted oxygen vacancy diffusion on TiO 2(110)

Yaobiao Xia; Bo Zhang; Jingyun Ye; Qingfeng Ge; Zhenrong Zhang

doi:10.1021/jz301293y

Acetone-assisted oxygen vacancy diffusion on TiO ₂(110)

Yaobiao Xia, Bo Zhang, Jingyun Ye, Qingfeng Ge, Zhenrong Zhang

Chemistry (Twin Cities)

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

We have studied the dynamic relationship between acetone and bridge-bonded oxygen (O _b) vacancy (V _O) defect sites on the TiO ₂(110)-1 - 1 surface using scanning tunneling microscopy (STM) and density function theory (DFT) calculations. We report an adsorbate-assisted V _O diffusion mechanism. The STM images taken at 300 K show that acetone preferably adsorbs on the V _O site and is mobile. The sequential isothermal STM images directly show that the mobile acetone effectively migrates the position of V _O by a combination of two acetone diffusion channels: one is the diffusion along the O _b row and moving as an alkyl group, which heals the initial V _O; another is the diffusion from the O _b row to the five-coordinated Ti ⁴⁺ row and then moving along the Ti ⁴⁺ row as an acetone, which leaves a V _O behind. The calculated acetone diffusion barriers for the two channels are comparable and agree with experimental results.

Original language	English (US)
Pages (from-to)	2970-2974
Number of pages	5
Journal	Journal of Physical Chemistry Letters
Volume	3
Issue number	20
DOIs	https://doi.org/10.1021/jz301293y
State	Published - Oct 18 2012

Keywords

Interfaces
Porous Materials
Surfaces
and Catalysis

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title = "Acetone-assisted oxygen vacancy diffusion on TiO 2(110)",

abstract = "We have studied the dynamic relationship between acetone and bridge-bonded oxygen (O b) vacancy (V O) defect sites on the TiO 2(110)-1 - 1 surface using scanning tunneling microscopy (STM) and density function theory (DFT) calculations. We report an adsorbate-assisted V O diffusion mechanism. The STM images taken at 300 K show that acetone preferably adsorbs on the V O site and is mobile. The sequential isothermal STM images directly show that the mobile acetone effectively migrates the position of V O by a combination of two acetone diffusion channels: one is the diffusion along the O b row and moving as an alkyl group, which heals the initial V O; another is the diffusion from the O b row to the five-coordinated Ti 4+ row and then moving along the Ti 4+ row as an acetone, which leaves a V O behind. The calculated acetone diffusion barriers for the two channels are comparable and agree with experimental results.",

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AU - Zhang, Zhenrong

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