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- Title
DFT + U investigation on high pressure properties of monoclinic CuO.
- Authors
Jaf, Zainab N.; Miran, Hussein A.; Rahman, M. Mahbubur; Amri, Amun; Jiang, Zhong-Tao
- Abstract
This contribution demonstrates density functional theory calculations on the optoelectronic properties of monoclinic CuO under high pressures up to 15 GPa. In this account, the experimentally measured indirect band gap energy value of 1.41 eV has theoretically been predicted by tuning the Hubbard parameter (U) values for the partial electronic states. The values of the Hubbard parameter correspond to UCu-3d = 8 eV and UO-2p = 4.5 eV. The electronic and optical characteristics were examined under applied pressure and the results reveal development in the band gap values with increasing pressure from 1.41 to 2.01 eV. Total and projected density of states for the adopted pressures have been provided and displayed that the major contribution in the valance and conduction bands comes from O-2p and Cu-3d electronic states, respectively. The plotted reflectivity data suggest high optical reflectivity magnitudes relatively in the ultraviolet area. The investigated systems under variant pressures manifest rather an excellent absorption coefficient in the ultraviolet area, pushing them to be employed in solar cell technologies. Our analyzed results of the wavelength-dependent electrical conductivity of the investigated materials confirm the absorptivity behavior in the ultraviolet and small part of visible region of electromagnetic waves (EMW). Finally and most importantly, our obtained results of loss functions for the entire surveyed systems reveal a slight energy loss in a range of EMW, including ultraviolet and visible regions.
- Subjects
CONDUCTION bands; COPPER oxide; ELECTRIC conductivity; ENERGY dissipation; DENSITY functional theory; PRESSURE; BAND gaps
- Publication
Canadian Journal of Physics, 2024, Vol 102, Issue 5, p316
- ISSN
0008-4204
- Publication type
Article
- DOI
10.1139/cjp-2023-0241