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Schira, R. & Latouche, C. (2020) DFT and hybrid-DFT calculations on the electronic properties of vanadate materials: theory meets experiments. New J. Chem. 44 11602–11607. 
Added by: Richard Baschera (2020-11-17 13:20:20)   Last edited by: Richard Baschera (2020-11-17 13:36:03)
Type de référence: Article
DOI: 10.1039/D0NJ02316G
Numéro d'identification (ISBN etc.): 1144-0546, 1369-9261
Clé BibTeX: Schira2020
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Catégories: MIOPS
Créateurs: Latouche, Schira
Collection: New J. Chem.
Consultations : 1/259
Indice de consultation : 4%
Indice de popularité : 1%
Liens URLs     http://xlink.rsc.org/?DOI=D0NJ02316G
Résumé     
Herein is presented a theoretical study of the electronic structure and optical properties of six vanadium oxides: Sr 2 V 2 O 7 , Ba 2 V 2 O 7 , Ca 2 VO 4 Cl, Sr 2 VO 4 Cl, Mg 3 V 2 O 8 and Zn 3 V 2 O 8 . , Herein is presented a theoretical study of the electronic structure and optical properties of six vanadium oxides: Sr 2 V 2 O 7 , Ba 2 V 2 O 7 , Ca 2 VO 4 Cl, Sr 2 VO 4 Cl, Mg 3 V 2 O 8 and Zn 3 V 2 O 8 . Simulations were performed within the Density Functional Theory (DFT) framework. Properties were computed using the Generalized Gradient Approximation (GGA) PBE functional, a Hubbard-like term corrected GGA (PBE+ U ) and the screened hybrid functional HSE06. Our simulations are compared with the available experimental measurements. It is shown that the geometrical parameters computed with the HSE06 functional are the most accurate with respect to experiments, although PBE and PBE+ U provide reliable results. Our results demonstrate that PBE gives reasonable estimations of the bandgaps and adding a U correction allows us to obtain bandgap values in very good agreement with respect to the experimental data. Surprisingly, the HSE06 functional is found to dramatically overestimate the band gaps of those vanadium oxides and therefore is not suitable to study these materials.
  
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