X-ray absorption reveals surface structure of titanium dioxide nanoparticles

Lin X. Chen; Tijana Rajh; Wighard Jäger; Jovan Nedeljkovic; Marion C. Thurnauer

doi:10.1107/S090904959801591X

X-ray absorption reveals surface structure of titanium dioxide nanoparticles

Lin X. Chen, Tijana Rajh, Wighard Jäger, Jovan Nedeljkovic, Marion C. Thurnauer

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

127 Scopus citations

Abstract

The structures of TiO₂ nanoparticles with a 19 Å diameter have been probed using Ti K-edge XANES, revealing severe distortions in Ti site environments compared to those octahedral Ti sites in bulk anatase. The distorted Ti sites are likely to adopt a pentacoordinate square pyramid geometry due to the truncation of the lattice. Upon binding ascorbic acid on the surfaces of the 19 Å particles, the octahedral Ti site observed in the bulk TiO₂ is largely restored. This discovery shows that the distortions in TiO₂ lattice are mainly located on the surface of the particles. The distorted Ti surface sites are responsible for the binding with other small molecules, which is often a prerequisite in surface chemistry.

Original language	English (US)
Pages (from-to)	445-447
Number of pages	3
Journal	Journal of synchrotron radiation
Volume	6
Issue number	3
DOIs	https://doi.org/10.1107/S090904959801591X
State	Published - May 1 1999
Externally published	Yes

Keywords

Nanoparticles
Semiconductor
Titanium dioxide
XAFS
XANES

ASJC Scopus subject areas

Radiation
Nuclear and High Energy Physics
Instrumentation

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10.1107/S090904959801591X

Cite this

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title = "X-ray absorption reveals surface structure of titanium dioxide nanoparticles",

abstract = "The structures of TiO2 nanoparticles with a 19 {\AA} diameter have been probed using Ti K-edge XANES, revealing severe distortions in Ti site environments compared to those octahedral Ti sites in bulk anatase. The distorted Ti sites are likely to adopt a pentacoordinate square pyramid geometry due to the truncation of the lattice. Upon binding ascorbic acid on the surfaces of the 19 {\AA} particles, the octahedral Ti site observed in the bulk TiO2 is largely restored. This discovery shows that the distortions in TiO2 lattice are mainly located on the surface of the particles. The distorted Ti surface sites are responsible for the binding with other small molecules, which is often a prerequisite in surface chemistry.",

keywords = "Nanoparticles, Semiconductor, Titanium dioxide, XAFS, XANES",

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AU - Chen, Lin X.

AU - Rajh, Tijana

AU - Jäger, Wighard

AU - Nedeljkovic, Jovan

AU - Thurnauer, Marion C.

PY - 1999/5/1

Y1 - 1999/5/1

N2 - The structures of TiO2 nanoparticles with a 19 Å diameter have been probed using Ti K-edge XANES, revealing severe distortions in Ti site environments compared to those octahedral Ti sites in bulk anatase. The distorted Ti sites are likely to adopt a pentacoordinate square pyramid geometry due to the truncation of the lattice. Upon binding ascorbic acid on the surfaces of the 19 Å particles, the octahedral Ti site observed in the bulk TiO2 is largely restored. This discovery shows that the distortions in TiO2 lattice are mainly located on the surface of the particles. The distorted Ti surface sites are responsible for the binding with other small molecules, which is often a prerequisite in surface chemistry.

AB - The structures of TiO2 nanoparticles with a 19 Å diameter have been probed using Ti K-edge XANES, revealing severe distortions in Ti site environments compared to those octahedral Ti sites in bulk anatase. The distorted Ti sites are likely to adopt a pentacoordinate square pyramid geometry due to the truncation of the lattice. Upon binding ascorbic acid on the surfaces of the 19 Å particles, the octahedral Ti site observed in the bulk TiO2 is largely restored. This discovery shows that the distortions in TiO2 lattice are mainly located on the surface of the particles. The distorted Ti surface sites are responsible for the binding with other small molecules, which is often a prerequisite in surface chemistry.

KW - Nanoparticles

KW - Semiconductor

KW - Titanium dioxide

KW - XAFS

KW - XANES

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X-ray absorption reveals surface structure of titanium dioxide nanoparticles

Abstract

Keywords

ASJC Scopus subject areas

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