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Band Structure Engineering and Optical Properties of Pristine and Doped Monoclinic Zirconia (<i>m</i>-ZrO<sub>2</sub>): Density Functional Theory Theoretical Prospective

El-Sayed R. Khattab, Sayed S. Abd El Rehim, Walid M. I. Hassan, Tamer S. El-Shazly

2021ACS Omega78 citationsDOIOpen Access PDF

Abstract

Recently, monoclinic ZrO2 has received great technological importance because of its remarkable dielectric properties, high chemical stability, and high melting point. Herein, we introduce first-principles calculations using the Hubbard approach (DFT + U) to study the effects of doping with Nb and W on the electronic and optical properties of pristine ZrO2. The introduction of dopant atoms into the pristine crystal structure led to the displacement of the bandgap edges and reallocation of the Fermi level. The valence band maximum (VBM) shifted upward, resulting in band gap tightening from 5.79 to 0.89 for ZrO2: Nb and to 1.33 eV for ZrO2: W. The optical absorption of doped crystals extended into the visible and near-infrared regions. Partial density of states (PDOS) calculations showed valence band dependency on the O 2p orbital energy, with the conduction band predominantly composed of Nb 4d and W 5d. For pristine ZrO2, the results obtained for the imaginary and real parts of the dielectric function, the refractive index, and the reflectivity show good agreement with the available experimental and theoretical results. For ZrO2:W, we checked the dopant location effect, and the obtained results showed no significant effect on the calculated values of the band gap with a maximum difference of 0.17 eV. Significant band gap tightening and optical properties of our systems indicate that these systems could be promising candidates for photoelectrochemical energy conversion (PEC) applications.

Topics & Concepts

Band gapDopantMaterials scienceMonoclinic crystal systemDopingFermi levelDensity functional theorySemimetalDirect and indirect band gapsElectronic band structureCondensed matter physicsDensity of statesDielectricComputational chemistryCrystal structureOptoelectronicsChemistryCrystallographyPhysicsQuantum mechanicsElectronAdvanced Photocatalysis TechniquesPerovskite Materials and Applications2D Materials and Applications