Fabrication of Cu-rich CZTS thin films by two-stage process: Effect of gas flow-rate in sulfurization process

•Cu-rich CZTS thin films were prepared by a two-stage process.•Effect of flow-rate of Ar+H2 mix gas in the sulfurization was studied.•Precursor film were sulfurized at 550 °C for 3 min.•CZTS thin film annealed under 40 sccm of mix gas presented better properties. In this study, CZTS thin films were...

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Bibliographic Details
Published inJournal of molecular structure Vol. 1230; p. 129922
Main Authors Olgar, M.A., Altuntepe, A., Erkan, S., Zan, R.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.04.2021
Subjects
Cu2ZnSnS4 (CZTS)
Flow-rate of gas
Sputtering
Sulfurization temperature
Two-stage method
Two-stage method
Flow-rate of gas
Cu2ZnSnS4 (CZTS)
Sulfurization temperature
Sputtering
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Summary:•Cu-rich CZTS thin films were prepared by a two-stage process.•Effect of flow-rate of Ar+H2 mix gas in the sulfurization was studied.•Precursor film were sulfurized at 550 °C for 3 min.•CZTS thin film annealed under 40 sccm of mix gas presented better properties. In this study, CZTS thin films were prepared using a two-stage process consisting of sputter deposition of Cu, Sn and ZnS layers on the glass substrates to form CuSn/ZnS/Cu stacked precursor films followed by sulfurization process under various flow-rate (0, 20, 40, 60, 80, 100 sccm) of Ar+H2 mix gas in a tubular furnace. The EDX measurements of the precursor and reacted films are Cu-rich and Zn-rich composition. However, Zn and Sn loss was observed for samples annealed under the flow-rate of gas above the 60 sccm. The XRD pattern of the samples showed diffraction peaks of pure kesterite CZTS structure and the FWHM values extracted from their XRD patterns and W-H plot calculations demonstrated that CZTS-40 thin film had a more desired crystallite size. The Raman spectra of the samples confirmed the formation of CZTS phase for all samples and indicated the formation of some secondary phases such as Cu2SnS3, SnS2, Sn2S3 except for CZTS-40 thin film. All the samples displayed dense and polycrystalline microstructure according to their SEM images. The optical band gap values of CZTS samples showed variation between 1.40 and 1.48 eV. The room-temperature PL spectra of the samples revealed a broad band that had a peak value at around 1.36–1.40 eV that are close to the optical band gap values for prepared CZTS samples.
ISSN:0022-2860
1872-8014
DOI:10.1016/j.molstruc.2021.129922