Assessment of the electronic structure of the monoclinic phase of niobium oxide based on the use of different density functionals

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Data

2021-01-01

Autores

Ody, Kamila S.
De Jesus, João P.A.
Cava, Carlos E.
Albuquerque, Anderson R.
Maia, Ary S.
Sambrano, Julio R. [UNESP]
La Porta, Felipe A.

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Resumo

Niobium oxides, Nb2O5, are considered semiconductor materials with very attractive physical and chemical properties for applications in many areas, such as catalysis, sensors, medical, aerospace, etc. Especially, the characterization of Nb2O5-based nanostructures with monoclinic structure has received much attention in recent years. However, despite the great importance of this system, some of its fundamentals properties are still not fully understood. Hence, this work aims to apply the theoretical methodologies through Density Functional Theory (DFT) calculations in periodic models based on the use of different density functionals (like B1WC, B3PW, B3LYP, PBE0, PBESOL0, SOGGAXC, and WC1LYP) to investigate the physical and chemical properties of the monoclinic structure of Nb2O5. The band structures, energy bandgap, density of state, and vibrational properties, as well as order-disorder effects on the monoclinic structure of Nb2O5are investigated in this study. Our theoretical results show a better agreement with experimental data for the B3LYP functional and hence lead to new perspectives on the deeper physicochemical understanding of the monoclinic Nb2O5. From these computational tools, it is possible to unravel the relations between structure and properties, which may contribute to the future development of new devices and applications based on these materials.

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DFT, Electronic structure, Exchange-correlation, Monoclinic, Nb2O5

Como citar

Quimica Nova, v. 44, n. 9, p. 1124-1131, 2021.

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