Yadav T.P.1,2,3, Srivastava A.2, Kaphle G.C.1
1Central Department of Physics, Tribhuvan University, Kirtipur, Kathmandu, Nepal
2Advanced Materials Research Group, CNT Lab, Atal Bihari Vajpayee Indian Institute of Information Technology and Management, Gwalior (M.P.), India
3Central Campus of Science and Technology, Mid-Western University, Surkhet, Nepal
Email: profanurag@gmail.com
Поступила в редакцию: 23 марта 2020 г.
Выставление онлайн: 7 мая 2020 г.
We report the structural, electronic, and magnetic properties of "zigzag" and "armchair" CuO nanosheets. The density function theory (DFT)-based ab-initio approach has been applied through revised Perdew, Burke, and Ernzerhof (rPBE) parameterized spin generalized-gradient approximation (SGGA) + mean-field Hubbard correction (U) exchange-correlation functional. In comparison to the semiconducting bulk CuO, the other forms of CuO nanosheets show metallic behavior and their structural stabilities have been analysed through binding energy estimation. Using SGGA, the computed magnetic moment per atom of zigzag CuO nanosheet varies irregularly between 0.66 and 1.19 μB, whereas for armchair CuO, between 0.59 and 1.53 μB. The addition of U changes this variation from 0.68 to 0.76 μB in zigzag and from 0.62 to 1.29 μB in armchair nanosheets, respectively. The computed spin polarization as unity or less than unity identifies the ferromagnetism in these materials. Obtained results of CuO nanosheets defend them as a potential candidate for a variety of electronic devices like gas sensors, electrodes, energy storage devices, etc. Keywords: CuO, nanosheet, DFT, electronic properties, magnetic moment, SGGA.
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