4.6 Article

Band gap tuning in MgGeN2 chalcopyrite with Sr and Sn doping: An ab-initio investigation

Journal

Publisher

ELSEVIER SCI LTD
DOI: 10.1016/j.mssp.2022.106603

Keywords

FP-LPAW; Solar cell; Mono-Co-Doped semiconductors; Optical properties

Funding

  1. DST-SERB, New Delhi (India) [EMR/2017/005534]

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This paper investigates the impact of mono and co-doping of Sr/Sn on the electronic, optical, and structural properties of MgGeN2. The potential of pure and doped compounds in optoelectronic applications is explored. It is observed that doping of Sr/Sn reduces the band gap of MgGeN2, and the energy gap decreases with co-doping of Sr and Sn. The optical properties of pure and doped compounds are discussed in terms of their potential for optoelectronic applications.
In this paper, we have investigated the impact of mono and co-doping of Sr/Sn on the electronic, optical and structural properties of MgGeN2. The effects of Sr/Sn doping at Mg/Ge site are investigated to explore the potential of pure and doped compounds in optoelectronic applications. For the investigations of electronic and optical properties such as, energy bands, density of states, dielectric tensors, absorption coefficient, reflectivity and refractivity spectra, of MgGeN2, Mg1-xSrxGeN2, MgGe1-xSnxN2 and Mg1-xSrxGe1-xSnxN2 (x = 0.0625, 0.125) compounds, we have used the Perdew-Burke-Ernzerhof generalized gradient approximation potential and further ameliorated by Tran-Blaha modified Becke Johnson exchange co-relation potential. The stability of the doped compounds is discussed in terms of formation energy and binding energy for the mono and co-doped compounds. It is observed that the doping of Sr/Sn at Mg/Ge reduces the band gap of MgGeN2. The energy gap of MgGeN2 reduces from 2.90 eV to 2.25 eV with 12.5% co-doping of Sr and Sn. The potential of pure and doped compounds for optoelectronic applications are discussed in terms of their optical properties.

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