Abstract
Abstract
In this current study, we used the density functional theory method to examine the physical properties of ZnS nanosheets doped with Tm, Y, Gd, and Eu at a concentration of 6.25%. The non-magnetic phase is energetically stable when doped with Y and Tm. However, the ferromagnetic state is thermodynamically stable when doped with Eu and Gd, show negative formation energy. The optimised structure is a planar structure for all doped systems, with an increase in the lattice parameter and bond length. On doping, the Fermi level is pushed into the conduction band, narrowing the band gap and exhibiting typical n-type semiconducting behaviour. In a wider optical window, Tm and Y-doped systems have lower reflectance and more excellent transmittance than Gd and Eu-doped systems in the visible light spectrum. The electrical conductivity has been calculated using the BoltzTrap package. The electrical conductivity has been enhanced by doping, making it suitable for optoelectronic, solar cells, spintronics, and thermoelectrics applications.
Subject
Electrochemistry,Materials Chemistry,Electrical and Electronic Engineering,Condensed Matter Physics,Electronic, Optical and Magnetic Materials
Cited by
1 articles.
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