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Title: Photoinduced reduction of surface states in Fe:ZnO

Abstract

We report on the electronic structure of nano-crystalline Fe:ZnO, which has recently been found to be an efficient photocatalyst. Using resonant photoemission spectroscopy, we determine the binding energy of Fe 3d states corresponding to different valencies and coordination of the Fe atoms. The photo-activity of ZnO reduces Fe from 3+ to 2+ in the surface region of the nano-crystalline material due to the formation of oxygen vacancies. Electronic states corresponding to low-spin Fe{sup 2+} are observed and attributed to crystal field modification at the surface. These states are potentially important for the photocatalytic sensitivity to visible light due to their location deep in the ZnO bandgap. X-ray absorption and x-ray photoemission spectroscopy suggest that Fe is only homogeneously distributed for concentrations up to 3%. Increased concentrations does not result in a higher concentration of Fe ions in the surface region. This is limiting the photocatalytic functionality of ZnO, where the most efficient Fe doping concentration has been shown to be 1%-4%.

Authors:
; ;  [1]; ;  [2];  [3];  [4];  [5]
  1. Department of Physics and Astronomy, Uppsala University, P.O. Box 516, SE-751 20 Uppsala (Sweden)
  2. Department of Chemistry Ångström, Uppsala University, P.O. Box 538, SE-751 21 Uppsala (Sweden)
  3. MAX-Laboratory, Lund University, P.O. Box 118, SE-221 00 Lund (Sweden)
  4. (India)
  5. Department of Engineering Sciences, Uppsala University, P.O. Box 534, SE-75121 Uppsala (Sweden)
Publication Date:
OSTI Identifier:
22415879
Resource Type:
Journal Article
Journal Name:
Journal of Chemical Physics
Additional Journal Information:
Journal Volume: 142; Journal Issue: 20; Other Information: (c) 2015 AIP Publishing LLC; Country of input: International Atomic Energy Agency (IAEA); Journal ID: ISSN 0021-9606
Country of Publication:
United States
Language:
English
Subject:
37 INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY; ATOMS; BINDING ENERGY; CONCENTRATION RATIO; CRYSTAL FIELD; ELECTRONIC STRUCTURE; IRON IONS; MODIFICATIONS; NANOSTRUCTURES; OXYGEN; PHOTOCATALYSIS; PHOTOELECTRON SPECTROSCOPY; POTENTIALS; REDUCTION; SPIN; SURFACES; VACANCIES; VALENCE; VISIBLE RADIATION; X RADIATION; ZINC OXIDES

Citation Formats

Knut, R., E-mail: ronny.knut@physics.uu.se, Palmgren, P., Karis, O., E-mail: Olof.Karis@physics.uu.se, Lagerqvist, U., Pohl, A., Pal, P., CSIR-National Physical Laboratory, Dr. K. S. Krishnan Road, New Delhi 110012, and Svedlindh, P. Photoinduced reduction of surface states in Fe:ZnO. United States: N. p., 2015. Web. doi:10.1063/1.4921570.
Knut, R., E-mail: ronny.knut@physics.uu.se, Palmgren, P., Karis, O., E-mail: Olof.Karis@physics.uu.se, Lagerqvist, U., Pohl, A., Pal, P., CSIR-National Physical Laboratory, Dr. K. S. Krishnan Road, New Delhi 110012, & Svedlindh, P. Photoinduced reduction of surface states in Fe:ZnO. United States. doi:10.1063/1.4921570.
Knut, R., E-mail: ronny.knut@physics.uu.se, Palmgren, P., Karis, O., E-mail: Olof.Karis@physics.uu.se, Lagerqvist, U., Pohl, A., Pal, P., CSIR-National Physical Laboratory, Dr. K. S. Krishnan Road, New Delhi 110012, and Svedlindh, P. Thu . "Photoinduced reduction of surface states in Fe:ZnO". United States. doi:10.1063/1.4921570.
@article{osti_22415879,
title = {Photoinduced reduction of surface states in Fe:ZnO},
author = {Knut, R., E-mail: ronny.knut@physics.uu.se and Palmgren, P. and Karis, O., E-mail: Olof.Karis@physics.uu.se and Lagerqvist, U. and Pohl, A. and Pal, P. and CSIR-National Physical Laboratory, Dr. K. S. Krishnan Road, New Delhi 110012 and Svedlindh, P.},
abstractNote = {We report on the electronic structure of nano-crystalline Fe:ZnO, which has recently been found to be an efficient photocatalyst. Using resonant photoemission spectroscopy, we determine the binding energy of Fe 3d states corresponding to different valencies and coordination of the Fe atoms. The photo-activity of ZnO reduces Fe from 3+ to 2+ in the surface region of the nano-crystalline material due to the formation of oxygen vacancies. Electronic states corresponding to low-spin Fe{sup 2+} are observed and attributed to crystal field modification at the surface. These states are potentially important for the photocatalytic sensitivity to visible light due to their location deep in the ZnO bandgap. X-ray absorption and x-ray photoemission spectroscopy suggest that Fe is only homogeneously distributed for concentrations up to 3%. Increased concentrations does not result in a higher concentration of Fe ions in the surface region. This is limiting the photocatalytic functionality of ZnO, where the most efficient Fe doping concentration has been shown to be 1%-4%.},
doi = {10.1063/1.4921570},
journal = {Journal of Chemical Physics},
issn = {0021-9606},
number = 20,
volume = 142,
place = {United States},
year = {2015},
month = {5}
}