Unravelling the correlated electronic and optical properties of BaTaO2N with perovskite-type structure as a potential candidate for solar energy conversion.

@article{Hafez2014UnravellingTC,
  title={Unravelling the correlated electronic and optical properties of BaTaO2N with perovskite-type structure as a potential candidate for solar energy conversion.},
  author={Ahmed Mousa Hafez and Noha M. Salem and Nageh K. Allam},
  journal={Physical chemistry chemical physics : PCCP},
  year={2014},
  volume={16 34},
  pages={
          18418-24
        }
}
We report on the first principles calculation of the electronic, structural and optical properties of BaTaO2N, using density functional theory (DFT) and finite difference time domain (FDTD) methods. Band structure calculations were performed to calculate the direct and indirect bandgaps of the material. Density of states and Mulliken charge analysis as well as the electronic contour maps were established to determine the type of bonding and hybridization between the various electronic states… 
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