Fabrication of Cu₂ZnSnS₄ Thin-Film Solar Cell Prepared by Pulsed Laser Deposition

Abstract: A thin-film solar cell based on a Cu 2 ZnSnS 4 (CZTS) absorber layer deposited by pulsed laser deposition has been fabricated with an Al:ZnO (n-type) window layer and a CdS buffer layer. Some peaks attributed to ( 112), ( 200), ( 220), and (312) planes of CZTS appeared in an X-ray diffraction pattern of a thin film. The composition of the film was Sn-rich and the band gap energy was approximately 1.5 eV. A CZTS film annealed at 500 C in an atmosphere of N 2 had optical characteristics suitable for use in an ab… Show more

“…A various physical and chemical techniques like, atom beam sputtering [1], hybrid sputtering [2], RF magnetron sputtering [3], thermal evaporation [4], pulsed laser deposition [5,6], sulfurization of electron-beam-evaporated precursors [7,8], spray pyrolysis [9,10], sol-gel sulfurizing method [11], etc. have been used for the synthesis of CZTS thin films for solar cell applications.…”

Single step electrosynthesis of Cu2ZnSnS4 (CZTS) thin films for solar cell application

“…A various physical and chemical techniques like, atom beam sputtering [1], hybrid sputtering [2], RF magnetron sputtering [3], thermal evaporation [4], pulsed laser deposition [5,6], sulfurization of electron-beam-evaporated precursors [7,8], spray pyrolysis [9,10], sol-gel sulfurizing method [11], etc. have been used for the synthesis of CZTS thin films for solar cell applications.…”

Single step electrosynthesis of Cu2ZnSnS4 (CZTS) thin films for solar cell application

“…Sputtering by atomic beam [2] Sputtering by radio frequency magnetron [4,5] Sulphurization of either electron-beam-evaporated or electrodeposited precursors [6,7] Photochemical deposition [8] Spray pyrolysis [9] Pulsed laser deposition [10,11] Sol-gel sulphurization [12] Chemical synthesis [13,14] Review on non-vacuum processes to fabricate thin films of CZTS with kesterite structure and composition has been published [15] …”

One-Step Electrodeposition of CZTS for Solar Cell Absorber Layer

“…The solubility of iron in the CZTS derivatives plays a key role in controlling many parameters. 3 Many techniques including spray pyrolysis, 4 sputtering, 5 hybrid sputtering, 6 sulfurization, 7 photo chemical deposition, 8 sol-gel sulferisation, 9 pulsed laser deposition, 10 thermal evaporation, 11 sol-gel spin coating 12 and spray pyrolysis have been used to deposit CZTS thin films. 13 A solution based synthesis of CFTS was reported recently using metal salts and sulfur in hot oleylamine to produce the Stannite phase of CFTS nanocrystals with particles of diameter between 15-25 nm .…”

The AACVD of CFTS Family of Materials