Journal
JOURNAL OF ELECTRONIC MATERIALS
Volume 50, Issue 4, Pages 1637-1643Publisher
SPRINGER
DOI: 10.1007/s11664-020-08478-z
Keywords
Crystal structure; electronic bandgap; Ce(2)S(3)compound; PBE-GGA; optical properties
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In this study, the structural, electronic and optical properties of Ce(2)S(3) compound were explored using first-principles simulation based on density functional theory (DFT) with CASTEP code. The obtained results show good agreement with experimental and previous theoretical values, indicating the stability of the orthorhombic crystal structure of Ce(2)S(3). The energy bandgap value suggests that Ce(2)S(3) belongs to the semiconductor category, with maximum optical reflectivity observed in the ultraviolet region.
In this work, the structural, electronic and optical properties of Ce(2)S(3)compound have been explored using CASTEP simulation code. We explore the crystal structure, lattice parameters, electronic band structure, the total density of states (TDOS), the partial density of states (PDOS) and the optical functions of the Ce(2)S(3)compound using first-principles simulation based on density functional theory (DFT). The orthorhombic crystal structure with space group (Pnma) of Ce(2)S(3)is stable both chemically and structurally. The lattice parameters of this compound are obtained by the optimization method. The lattice parameters measured in this study (a = 7.53 angstrom,b = 4.10 angstrom andc = 15.73 angstrom) indicate excellent agreement with experimental and previous theoretical results. The electronic properties are investigated using Perdew-Burke-Ernzerhof generalized gradient approximation (PBE-GGA) and GGA observe U approaches within DFT employing CASTEP code. The energy bandgap value reported in this study (E-g = 0.76 eV) is comparable to the previous theoretical value. This energy bandgap value shows that Ce(2)S(3)belongs to the semiconductor category. The frequency-dependent dielectric function and some optical properties such as reflectivity, absorption coefficient, optical dielectric constant, optical conductivity and the energy loss function have also been calculated in the present work. The optical reflectivity is noted to be maximum in the ultraviolet region of the electromagnetic spectrum.
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