Substitutional energies, thermodynamic charge transition levels and optical properties of lanthanide doped anatase TiO(sub2) has been investigated using local density approximation with the Hubbard U correction (LDA+U) within the density functional theory formalism. All the lanthanides apart from La introduced impurity states in the host band gap on doping. The calculated substitutional energies indicate that it is possible to dope TiO(sub2) with lanthanide ions. The optimal doping percentage was predicted to be ~3% and dopant levels resulting from Ce, Nd, Sm, Gd and Tm doping were found to possess negative U characteristics. In addition the calculated thermodynamic transition levels predicted Lu as not having any possible charge transitions within the host band gap. The calculated optical absorption coefficients indicate that lanthanide doping led to optical absorption in the visible regime.
Reference:
Mulwa, W.M., Ouma, C.N.M., Onani, M.O. and Dejene, F.B. 2016. Energetic, electronic and optical properties of lanthanide doped TiO2: An ab initio LDA+U study. Journal of Solid State Chemistry, 237, pp 129-137
Mulwa, W., Ouma, C., Onani, M., & Dejene, F. (2016). Energetic, electronic and optical properties of lanthanide doped TiO2: An ab initio LDA+U study. http://hdl.handle.net/10204/8780
Mulwa, WM, CNM Ouma, MO Onani, and FB Dejene "Energetic, electronic and optical properties of lanthanide doped TiO2: An ab initio LDA+U study." (2016) http://hdl.handle.net/10204/8780
Mulwa W, Ouma C, Onani M, Dejene F. Energetic, electronic and optical properties of lanthanide doped TiO2: An ab initio LDA+U study. 2016; http://hdl.handle.net/10204/8780.
Copyright: 2016 Elsevier. This is a post-print version. The definitive version of the work is published in the Journal of Solid State Chemistry, 237, 129-137
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