Preparation and Performance Research of CuInSe<sub>2</sub> Materials Applied in Solar Cell

Abstract: At present, CuInSe 2 (referred to as CIS) semiconductor has become one of the hot points in solar cell field at home and abroad for its excellent performances, such as direct bandgap, high light absorption coefficient, high photoelectric conversion efficiency and long-term stability. In this paper, the CIS bulk materials are prepared by the horizontal Bridgman method with double-heat sources, the crystal structure, microstructure morphology and composition of the samples are analyzed in X-ray diffraction instr… Show more

“…The conversion of molecular metal-chalcogenolate complexes and small clusters has proven to be a highly effective method for the formation of metal-chalcogenide extended solids, − thin films, as well as nanoscale materials. ,, This includes works by Williams et al (photolysis) and Castro et al and Banger et al (thermolysis), who have demonstrated that the mixed-metal [(Ph 3 P) 2 ­CuIn­(ER) 4 ] (E = S, Se) can be used as molecular precursors to the related ternary nanomaterials CuInE 2 , taking advantage of the well-defined Cu:In:S ratio. Indeed, Castro and co-workers investigated in detail their decomposition to tetragonal CuInS 2 in noncoordinating, high boiling solvents where size selective preparation was achieved.…”

Facile Preparation of Wurtzite CuInE₂ (E = S, Se) Nanoparticles Under Solvothermal Conditions

“…The conversion of molecular metal-chalcogenolate complexes and small clusters has proven to be a highly effective method for the formation of metal-chalcogenide extended solids, − thin films, as well as nanoscale materials. ,, This includes works by Williams et al (photolysis) and Castro et al and Banger et al (thermolysis), who have demonstrated that the mixed-metal [(Ph 3 P) 2 ­CuIn­(ER) 4 ] (E = S, Se) can be used as molecular precursors to the related ternary nanomaterials CuInE 2 , taking advantage of the well-defined Cu:In:S ratio. Indeed, Castro and co-workers investigated in detail their decomposition to tetragonal CuInS 2 in noncoordinating, high boiling solvents where size selective preparation was achieved.…”

Facile Preparation of Wurtzite CuInE₂ (E = S, Se) Nanoparticles Under Solvothermal Conditions

Growth and microtopographic study of CuInSe2 single crystals

Room temperature synthesis of nanocrystalline CuInSe2 thin films by electrodeposition