Anisotropy and collection angle dependence of the oxygen K ELNES in V 2O5: A band-structure calculation study

D. S. Su; C. Hébert; M. Willinger; R. Schlögl

doi:10.1016/S0968-4328(03)00031-3

Anisotropy and collection angle dependence of the oxygen K ELNES in V ₂O₅: A band-structure calculation study

D. S. Su, C. Hébert, M. Willinger, R. Schlögl

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

20 Scopus citations

Abstract

We present a theoretical study of the anisotropy and collection angle dependence of the oxygen K ELNES in V₂O₅. Ab initio bandstructure calculations were performed with WIEN97, a program package based on the full potential linearised augmented plane waves (FP-LAPW) method. An analysis of the site and angular momentum projected DOS allowed the identification of differently coordinated oxygens and the separation of the oxygen K-edge into contributions from terminal (vanadyl) oxygens, bridging oxygens and chain oxygens. The major contribution to the anisotropy of the O K-edge ELNES could be assigned to transitions at the vanadyl oxygen. Theoretical calculations predict that the extent of changes in the ELNES would be large enough for detection in collection angle dependent O K-edge measurements. A variation in the fine structure of the O K-edge with decreasing collection angle was confirmed by experiments.

Original language	English
Pages (from-to)	227-233
Number of pages	7
Journal	Micron
Volume	34
Issue number	3-5
DOIs	https://doi.org/10.1016/S0968-4328(03)00031-3
State	Published - 2003
Externally published	Yes

Keywords

Anisotropy
Band structure calculation
Density of unoccupied states
Electron energy-loss spectroscopy
Vanadium oxides

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10.1016/S0968-4328(03)00031-3

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title = "Anisotropy and collection angle dependence of the oxygen K ELNES in V 2O5: A band-structure calculation study",

abstract = "We present a theoretical study of the anisotropy and collection angle dependence of the oxygen K ELNES in V2O5. Ab initio bandstructure calculations were performed with WIEN97, a program package based on the full potential linearised augmented plane waves (FP-LAPW) method. An analysis of the site and angular momentum projected DOS allowed the identification of differently coordinated oxygens and the separation of the oxygen K-edge into contributions from terminal (vanadyl) oxygens, bridging oxygens and chain oxygens. The major contribution to the anisotropy of the O K-edge ELNES could be assigned to transitions at the vanadyl oxygen. Theoretical calculations predict that the extent of changes in the ELNES would be large enough for detection in collection angle dependent O K-edge measurements. A variation in the fine structure of the O K-edge with decreasing collection angle was confirmed by experiments.",

keywords = "Anisotropy, Band structure calculation, Density of unoccupied states, Electron energy-loss spectroscopy, Vanadium oxides",

author = "Su, {D. S.} and C. H{\'e}bert and M. Willinger and R. Schl{\"o}gl",

note = "Funding Information: The work is supported by the SFB 546 of the Deutsche Forschungsgemeinschaft and the Austrian Science Fond PHY 14038. The authors would like to thank P. Schattschneider and M. H{\"a}vecker for helpful discussions.",

year = "2003",

doi = "10.1016/S0968-4328(03)00031-3",

language = "English",

volume = "34",

pages = "227--233",

journal = "Micron",

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T2 - A band-structure calculation study

AU - Su, D. S.

AU - Hébert, C.

AU - Willinger, M.

AU - Schlögl, R.

N1 - Funding Information: The work is supported by the SFB 546 of the Deutsche Forschungsgemeinschaft and the Austrian Science Fond PHY 14038. The authors would like to thank P. Schattschneider and M. Hävecker for helpful discussions.

PY - 2003

Y1 - 2003

N2 - We present a theoretical study of the anisotropy and collection angle dependence of the oxygen K ELNES in V2O5. Ab initio bandstructure calculations were performed with WIEN97, a program package based on the full potential linearised augmented plane waves (FP-LAPW) method. An analysis of the site and angular momentum projected DOS allowed the identification of differently coordinated oxygens and the separation of the oxygen K-edge into contributions from terminal (vanadyl) oxygens, bridging oxygens and chain oxygens. The major contribution to the anisotropy of the O K-edge ELNES could be assigned to transitions at the vanadyl oxygen. Theoretical calculations predict that the extent of changes in the ELNES would be large enough for detection in collection angle dependent O K-edge measurements. A variation in the fine structure of the O K-edge with decreasing collection angle was confirmed by experiments.

AB - We present a theoretical study of the anisotropy and collection angle dependence of the oxygen K ELNES in V2O5. Ab initio bandstructure calculations were performed with WIEN97, a program package based on the full potential linearised augmented plane waves (FP-LAPW) method. An analysis of the site and angular momentum projected DOS allowed the identification of differently coordinated oxygens and the separation of the oxygen K-edge into contributions from terminal (vanadyl) oxygens, bridging oxygens and chain oxygens. The major contribution to the anisotropy of the O K-edge ELNES could be assigned to transitions at the vanadyl oxygen. Theoretical calculations predict that the extent of changes in the ELNES would be large enough for detection in collection angle dependent O K-edge measurements. A variation in the fine structure of the O K-edge with decreasing collection angle was confirmed by experiments.

KW - Anisotropy

KW - Band structure calculation

KW - Density of unoccupied states

KW - Electron energy-loss spectroscopy

KW - Vanadium oxides

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DO - 10.1016/S0968-4328(03)00031-3

M3 - Article

AN - SCOPUS:0141941103

SN - 0968-4328

VL - 34

SP - 227

EP - 233

JO - Micron

JF - Micron

IS - 3-5

ER -

Anisotropy and collection angle dependence of the oxygen K ELNES in V ₂O₅: A band-structure calculation study

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Keywords

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