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  Lee, S.M.; Ikeda, S.; Yagi, T.; Harada, T.; Ennaoui, A.; Matsumura, M.: Fabrication of CuInS₂ films from electrodeposited Cu/In bilayers: effects of preheat treatment on their structural, photoelectrochemical and solar cell properties. Physical Chemistry Chemical Physics 13 (2011), p. 6662-6669

10.1039/c0cp02204g

Abstract:
Polycrystalline CuInS2 films were fabricated by sulfurization of electrodeposited Cu and In metallic precursor films in a Cu-rich composition at 520 1C in H2S (5% in Ar). Structural analyses revealed that the adherence of the thus-formed CuInS2 film to the Mo substrate was strongly dependent on heating profiles of the Cu/In bilayer film: a CuInS2 film with poor adherence having many crevices was formed when the Cu/In bilayer film was heated monotonously from room temperature to 520 1C in Ar within 25 min followed by sulfurization, whereas CuInS2 films with good adherence were obtained when the Cu/In films were pretreated at 110 °C in Ar for 10–60 min just before increasing the temperature up to 520 °C for sulfurization. It was also clarified that the CuInS2 film obtained without 110 °C pretreatment had pinholes inside the film, whereas the CuInS2 films formed after 110 °C pretreatment showed no notable pinholes. Photoelectrochemical responses of these CuInS2 films in an electrolyte solution containing Eu(III) indicated that the CuInS2 films obtained after 110 1C pretreatment had higher external quantum efficiency (EQE) values than those of films obtained without 110 1C pretreatment, mainly due to better adherence of 110 1C pretreated CuInS2 films to the Mo substrate than the CuInS2 film obtained without 110 1C pretreatment. The performance of solar cells with an Al:ZnO/Zn(S,O)/CdS/ CuInS2/Mo structure also depended on the structural characteristics of the CuInS2 films, i.e., preliminary conversion efficiencies of ca. 5% were obtained for devices based on the CuInS2 films obtained after 110 °C pretreatment, whereas the device prepared by the CuInS2 film without 110 °C pretreatment showed the conversion efficiency less than 1.5%.