Electronic and optical properties of ZnO nanosheet doped and codoped with Be 
and/or Mg for ultraviolet optoelectronic technologies: density functional 
calculations

Bouziani, I; Kibbou, M.; Haman, Z.; Benhouria, Y.; Essaoudi, I; Ainane, Abdelmajid; Ahuja, R.

doi:10.1088/1402-4896/ab461a

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Electronic and optical properties of ZnO nanosheet doped and codoped with Be and/or Mg for ultraviolet optoelectronic technologies: density functional calculations

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Ainane, Abdelmajid
Max Planck Institute for the Physics of Complex Systems, Max Planck Society;

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Citation

Bouziani, I., Kibbou, M., Haman, Z., Benhouria, Y., Essaoudi, I., Ainane, A., et al. (2021). Electronic and optical properties of ZnO nanosheet doped and codoped with Be and/or Mg for ultraviolet optoelectronic technologies: density functional calculations. Physica Scripta, 95(1): 015804. doi:10.1088/1402-4896/ab461a.

Cite as: https://hdl.handle.net/21.11116/0000-0008-9AB4-F

Abstract

Theoretically, the density functional calculations have been effectuated for investigating electronic and optical properties of zinc oxide nanosheet doped and codoped with Be and/or Mg utilizing the generalized gradient approximation modified Becke-Johnson (GGA-mBJ) approach. The computed results show that the ZnBeO, ZnMgO and ZnBeMgO in nanosheet structure, referring to their low formation energy values, are more stable than those in bulk one. Furthermore, the bandgap of ZnO monolayer can be effectively modulated through substitution of Zn atoms by Be and/or Mg. In addition to that, by incorporating Be and/or Mg, the absorption peaks of ZnO nanosheet shift into the shorter UV-wavelength side as well as its reflectivity becomes lower. These results indicate that doping and codoping process of ZnO monolayer with Be and/or Mg are two efficient ways to modulate electronic and optical properties for ultraviolet optoelectronic technologies.