Article ID Journal Published Year Pages File Type
1331401 Journal of Solid State Chemistry 2013 7 Pages PDF
Abstract

TaON is considered as a potential candidate as a visible-light responsive photocatalyst. We report the results of ab initio studies of electronic structure of TaON-based alloys. Specifically, we show that the position of conduction and valence band can be modified by varying the oxygen and nitrogen concentrations in TaO1−xN1+x. We find that the band gap decreases monotonically with the increase of N/O ratio. The band gap energy is decreased in monoclinic TaON from near 2.3 eV to just over 1.7 eV (i.e., by 35%) when N/O ratio is increased from 3/5 to 5/3. Our calculations show that the band gap reduces in a series of experimentally fabricated alloys ZrTa3O5N3→TaON→YTa7O7N8. The band gap reduction is mostly associated with the change in the position of the valence band due to the hybridization of N 2p states, while the conduction band consisting mostly of Ta 5d-states is not sensitive to N content. The calculated optical absorption spectra show reduction in the optical band gap with increasing N/O ratio.

Graphical abstractBand gap energy of TaO1−xN1+x as a function of N/O ratio.Figure optionsDownload full-size imageDownload as PowerPoint slideHighlights► The electronic and optical properties of TaON-based alloys are studied using DFT. ► The position of conduction and valence bands can be modified by varying N/O ratio. ► The band gap decreases monotonically with the increase of N/O ratio in TaO1−xN1+x. ► The band gap reduces in a series of fabricated alloys ZrTa3O5N3→TaON→YTa7O7N8. ► The optical band gap decreases with the increase of N/O ratio.

Related Topics
Physical Sciences and Engineering Chemistry Inorganic Chemistry
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