Kesterite compound Cu2ZnSnS4 is the most promising next leader in the chalcogenide thin films technology as it is based on earth-abundant elements. In this work, kesterite thin films were prepared with a wet chemistry method by using a DMSO solution containing thiourea and acetylacetone, without further addition of vapour sulfur compounds to obtain the Cu2ZnSnS4 phase. The composition and stability of the molecular precursor-ink were investigated by EPR, IR and Raman spectroscopy. Acetate precursors were proved to have a primary role in creating a network in the sol-gel transition by bridging the metals in solution, together with thiourea and DMSO coordination. The high-quality of the thin films, obtained by spin coating deposition and thermal treatment at 500°C, was assessed by XRD, Raman, Energy-Dispersive spectroscopy and optical analysis, which revealed a direct band gap of 1.5 eV. Therefore, the precursor-ink and the deposition process developed in this work are very well suitable for solar cell application.

Trifiletti, V., Mostoni, S., Butrichi, F., Acciarri, M., Binetti, S., Scotti, R. (2019). Study of Precursor‐Inks Designed for High‐Quality Cu2ZnSnS4 Films for Low‐Cost PV Application. CHEMISTRYSELECT, 4(17), 4905-4912 [10.1002/slct.201900170].

Study of Precursor‐Inks Designed for High‐Quality Cu2ZnSnS4 Films for Low‐Cost PV Application

Trifiletti, V
Primo
;
Mostoni, S;Butrichi, F;Acciarri, M;Binetti, S
;
Scotti, R
Ultimo
2019

Abstract

Kesterite compound Cu2ZnSnS4 is the most promising next leader in the chalcogenide thin films technology as it is based on earth-abundant elements. In this work, kesterite thin films were prepared with a wet chemistry method by using a DMSO solution containing thiourea and acetylacetone, without further addition of vapour sulfur compounds to obtain the Cu2ZnSnS4 phase. The composition and stability of the molecular precursor-ink were investigated by EPR, IR and Raman spectroscopy. Acetate precursors were proved to have a primary role in creating a network in the sol-gel transition by bridging the metals in solution, together with thiourea and DMSO coordination. The high-quality of the thin films, obtained by spin coating deposition and thermal treatment at 500°C, was assessed by XRD, Raman, Energy-Dispersive spectroscopy and optical analysis, which revealed a direct band gap of 1.5 eV. Therefore, the precursor-ink and the deposition process developed in this work are very well suitable for solar cell application.
Articolo in rivista - Articolo scientifico
acetate; kesterite; molecular ink; secondary phases; sol-gel; solar cell;
English
2019
4
17
4905
4912
none
Trifiletti, V., Mostoni, S., Butrichi, F., Acciarri, M., Binetti, S., Scotti, R. (2019). Study of Precursor‐Inks Designed for High‐Quality Cu2ZnSnS4 Films for Low‐Cost PV Application. CHEMISTRYSELECT, 4(17), 4905-4912 [10.1002/slct.201900170].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/228135
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