[摘要] Tin sulfide (SnS) semiconductor thin films were deposited by organic chemical vapor sulfurization of metallic tin layers for application as photo-absorber in solar cells. Metallic 100-200 nm Sn thin films deposited by DC magnetron sputtering were sulfurized in di-tert-butyl-disulfide (TBDS) vapor stream with 100 sccm N-2 flow under atmospheric pressure at temperatures 300, 350 and 400 degrees C for 90 min. X-ray diffraction study shows polycrystalline single phase SnS film formation in orthorhombic crystal structure with dominant (111) orientation at 300 degrees C and improved crystallinity with minor SnS2 and Sn2S3 phase inclusion at 350 degrees C. Raman spectral analysis shows dominant 92 cm(-1) and 222 cm(-1) Ag and B-1u as well as lesser intensity 141 and 164 cm(-1) B-2u and B-3g vibration modes belonging to SnS. Sulfurization at 350 degrees C led to additional Raman peaks 147.6, and 176.7 cm(-1) assigned to B-2u, and B-1u modes of SnS phase consistent with the diffraction study. Emergence of Raman peaks at 152 and 308 cm (-1) indicate SnS2 and Sn2S3 phase growth alongside SnS in films sulfurized at 400 degrees C. The 350 degrees C sulfurized SnS film show indirect and direct band gaps of 1.1 and 1.56 eV, respectively and corresponding higher values of 1.42 and 2.07 eV for 400 degrees C sulfurized SnS films. Based on the microstructure, diffraction and Raman scattering results as well as optical transmission studies at lower sulfurization times, essential mechanism of SnS film formation and that of the inclusion of secondary phases is proposed. (c) 2017 Elsevier B.V. All rights reserved.