TY - JOUR
T1 - Prediction of novel
X
2
ZnZ
4
(X = Sc, Y; Z = S, Se) spinels materials for renewable energy applications
AU - Saeed, Muhammad
AU - Noor, Zubaida
AU - Ali, Roshan
AU - Laref, Amel
AU - Althib, Hind M.
AU - Flemban, Tahani H.
AU - Murtaza, Ghulam
N1 - KAUST Repository Item: Exported on 2021-02-10
Acknowledgements: This research project (for A. Laref) was supported by agrant from the “Research centre of the Female Scientificand Medical Colleges,”, Deanship of Scientific Research,King Saud University. Muhammad Saeed acknowledgesthe support of start-up funding from East China Univer-sity of Technology, Nanchang, Jiangxi Province
PY - 2021/2/6
Y1 - 2021/2/6
N2 - Spinel materials have excellent properties for advance applications. These properties are largely depending on their accurate structure and composition. Here, in this study, we have used density functional theory calculations to study a few new and less explored spinel materials (X2ZnZ4 (X = Sc, Y; Z = S, Se)). Further, we have used modified Becke-Johnson exchange correlation potential for calculating the electronic and optical properties. All the spinel materials are found stable in the cubic phase with direct bandgap nature at Γ symmetry point. Band structures are found dispersive hence, we expect low effective masses and excellent transport properties. We have also calculated the absorption efficiencies of these spinel materials for soar cells applications. Scandium-based spinels, especially Sc2ZnSe4 are found with excellent absorption efficiencies. We expecting that this study will provide new candidates to the scientific community in the field of spinel materials.
AB - Spinel materials have excellent properties for advance applications. These properties are largely depending on their accurate structure and composition. Here, in this study, we have used density functional theory calculations to study a few new and less explored spinel materials (X2ZnZ4 (X = Sc, Y; Z = S, Se)). Further, we have used modified Becke-Johnson exchange correlation potential for calculating the electronic and optical properties. All the spinel materials are found stable in the cubic phase with direct bandgap nature at Γ symmetry point. Band structures are found dispersive hence, we expect low effective masses and excellent transport properties. We have also calculated the absorption efficiencies of these spinel materials for soar cells applications. Scandium-based spinels, especially Sc2ZnSe4 are found with excellent absorption efficiencies. We expecting that this study will provide new candidates to the scientific community in the field of spinel materials.
UR - http://hdl.handle.net/10754/667291
UR - https://onlinelibrary.wiley.com/doi/10.1002/er.6504
U2 - 10.1002/er.6504
DO - 10.1002/er.6504
M3 - Article
SN - 0363-907X
JO - International Journal of Energy Research
JF - International Journal of Energy Research
ER -