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Abstract
Photocatalysis (the acceleration of a photoreaction in the presence of a catalyst)
is presently used in large variety of applications and is one of the possible strategies for future sustainable fuel production from solar energy. A general picture of a photocatalytic process is well known: photogeneration of electron-hole pairs, excess carrier transport to distinct reactive sites and finally carrier utilization in a chemical reaction. For most photocatalyst a detailed understanding of these steps, however, is lacking yet it is crucial to elucidate photocatalyst limitations.Of particular importance is gaining insight into the nature of photogenerated carriers as they play a central role in all the basics steps of a photocatalytic process.
The main objective of this thesis is to elucidate the experimentally observed
localized nature of photogenerated electron holes in titanium dioxide-the most
studied, yet poorly understood photocatalyst.
By means of the density functional theory (DFT) and its simple extension, the
linear expansion self-consistent field DFT, it is shown that in TiO2 the photogenerated holes self-trap forming O- small polarons. Self-trapping strength is significantly modied in surface layers due to the variation of surface electrostatic potential. This finding explains dierences in photooxidative properties among rutile and anatase TiO2 facades.
Optical absorption spectra and hole hopping mobilities of the O- centers in
TiO2 have been calculated. Since time resolved optical spectroscopies are common techniques to study hole dynamics in TiO2 these results should aid analysis of photocatalytic processes on TiO2.
Apart from photocatalysis this thesis also deals with the problem of the localization/delocaliztion error in approximate DFT functionals-the effect of the
incorrect, nonlinear description of fractional electron systems by approximate
exchange-correlation functionals. It is shown that by removing the total energy
nonlinarlity a more consistent description of states with different degrees
of localization can be achieved.
Original language | English |
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Place of Publication | Kgs. Lyngby |
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Publisher | Technical University of Denmark, Center for Atomic-Scale Materials Physics |
Number of pages | 138 |
Publication status | Published - 2011 |
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Dive into the research topics of 'Semiconductor Photocatalysis: Electronic Hole Trapping in TiO2'. Together they form a unique fingerprint.Projects
- 1 Finished
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Water Splitting Reaction at Semiconductor Surfaces
Zawadzki, P. (PhD Student), Nørskov, J. K. (Main Supervisor), Jacobsen, K. W. (Supervisor), Rossmeisl, J. (Supervisor), Chorkendorff, I. (Examiner), Marzari, N. (Examiner) & Jónsson, H. (Examiner)
01/01/2009 → 23/02/2012
Project: PhD