Electronic structure of LiCoO2 thin films: A combined photoemission spectroscopy and density functional theory study
Abstract
The electronic properties of LiCoO2 have been studied by theoretical band-structure calculations (using density functional theory) and experimental methods (photoemission). Synchrotron-induced photoelectron spectroscopy, resonant photoemission spectroscopy (ResPES), and soft x-ray absorption (XAS) have been applied to investigate the electronic structure of both occupied and unoccupied states. High-quality PES spectra were obtained from stoichiometric and highly crystalline LiCoO2 thin films deposited “in situ” by rf magnetron sputtering. An experimental approach of separating oxygen- and cobalt-derived (final) states by ResPES in the valence-band region is presented. The procedure takes advantage of an antiresonant behavior of cobalt-derived states at the 3p-3d excitation threshold. Information about the unoccupied density of states has been obtained by OK XAS. The structure of the CoL absorption edge is compared to semiempirical charge-transfer multiplet calculations. The experimental results are furthermore compared with band-structure calculations considering three different exchange potentials [generalized gradient approximation (GGA), using a nonlocal Hubbard U (GGA+U) and using a hybrid functional (Becke, three-parameter, Lee-Yang-Parr [B3LYP])]. For these different approaches total density of states and partial valence-band density of states have been investigated. The best qualitative agreement with experimental results has been obtained by using a GGA+U functional with U=2.9eV .
- Publication:
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Physical Review B
- Pub Date:
- November 2010
- DOI:
- Bibcode:
- 2010PhRvB..82s5431E
- Keywords:
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- 68.47.Gh;
- 73.20.Hb;
- 79.60.Dp;
- 82.80.Pv;
- Oxide surfaces;
- Impurity and defect levels;
- energy states of adsorbed species;
- Adsorbed layers and thin films;
- Electron spectroscopy