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CONDENSED MATTER

Optically induced structural transformation in disordered kesterite Cu$_{2}$ZnSnS$_{4}$

M. Ya. Valakh^a, V. M. Dzhagan^a, I. S. Babichuk^a, X. Fontane^b, A. Perez-Rodriquez^cb, S. Schorr<sup>de

a</sup> Institute of Semiconductor Physics NAS, Kiev
^b Catalonia Institute for Energy Research
^c Universitat de Barcelona
^d Helmholtz-Zentrum Berlin fur Materialien und Energie
^e Freie Universitat Berlin, Institute of Geological Sciences

Abstract: The kesterite-structured semiconductor Cu$_2$ZnSnS$_4$ is one of the most promising compound for earth-abundant low-cost solar cells. One of the complex problem on this way deals with its stoichiometry. In this work Raman spectra of Cu-rich Cu$_2$ZnSnS$_4$ crystals are discussed in connection with the non-stoichiometric composition and disordering within the cation sublattice of the kesterite. The shift of the main $A$-peak from 338 to 331 cm$^{-1}$ and its broadening are attributed here to transition from the kesterite (I$\bar{4}$-symmetry) to the disordered kesterite structure (I$\bar{4}$2m-symmetry). It is shown that this transition may also be driven by an intense light, which could stimulate transformation of Cu$^+$-ion to Cu$^{2+}$-ions and facilitates generation of Cu$_{\text{Zn}}$-defects on 2d-crystalographic positions.

Received: 26.06.2013

Language: English

DOI: 10.7868/S0370274X13170037

 English version: Journal of Experimental and Theoretical Physics Letters, 2013, 98:5, 255–258

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