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Description:

We investigate the molecular species present in hydrazine CuIn(Se,S)₂ precursor solutions, their interactions, and phase formation in solution processed CuIn(Se,S)₂ thin films through Raman spectroscopy. The reaction between Cu₂S and sulfur yields [Cu6S4]^2- ions, while [In2Se4]^2- ions are formed by the reaction of In₂Se₃ with selenium within their respective solutions. Once combined to prepare a CuIn(Se,S)₂ precursor solution, these two species appear to be bridged via newly formed In-S bonds. The creation of the In-S bonds in the CuIn(Se,S)2 precursor solution provides strong evidence for the mixing of copper, indium, sulfur, and selenium at a molecular level even prior to deposition. From this configuration, relatively little atomic diffusion is required to reach the chalcopyrite structure, which enables the formation of highly uniform polycrystalline CuIn(Se,S)₂ films at relatively low temperatures.