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  Levcenko, S.; Hadke, S.S.; Wong, L.H.; Unold, T.: Electroreflectance of thin film solar cells. Physical Review Materials 5 (2021), p. 104605/1-6

10.1103/physrevmaterials.5.104605
Open Access Version

Abstract:
The effect of Cu off-stoichiometry and Zn alloying on the fundamental absorption region of Cu2CdSnS4 (CCTS) absorbers in complete solar cells has been investigated using electroreflectance (ER) spectroscopy at room temperature. It is found that ER spectra consist of contributions from two different sources, one of which corresponds to band gap transition in the absorber layer and the other to the interference effect in the window layer. ER measurements on CCTS samples reveal a near-constant band gap energy of 1.37–1.38 eV and a relatively small broadening of 60–90 meV in the probed 0.8<Cu/(Cd+Sn)<0.89 compositional range, in contrast to related kesterites Cu2ZnSn(S,Se)4. The analysis of the band gap in Cu2(Cd1−x,Znx)SnS4 alloys yields a quadratic dependence on Zn content with a bowing parameter of 0.4 eV. Finally, the broadening parameters of the band gap transitions as well as their compositional dependence are evaluated and discussed.