Spinel Indium Sulfide Precursor for the Phase-Selective Synthesis of Cu-ln-S Nanocrystals with Zinc-Blende, Wurtzite, and Spinel Structures

摘要

Group I—III—VI ternary chalcogenides have attracted extensive attention as important functional semiconductors. Among them, Cu—In—S compounds have seen strong research interest due to their potential applications in high-efficiency solar cells. However, the controllable synthesis of Cu—In~S nanostruc-tures with different phases is always difficult. In this research, zinc-blende CuInS2, wurtzite CuInS2 and spinel CuInsS8 could be selectively synthesized using spinel In_(3-x)S4 as the precursor by a simple solvothermal method. X-ray powder diffraction was used to determine the phase and crystal structure, and transmission electron microscopy was employed to characterize the morphologies of the as-prepared samples. Experiments showed that the acidity—basicity of the reaction system and the coordination and reducibility of the capping ligands were crucial to the final phases of the products. The UV-vis-NIR spectra of the three phases all exhibited a broad-band absorption over the entire visible light and extending into the near-infrared region, and the zinc-blende, wurtzite, and spinel Cu—In—S nanocrystals showed band gaps of 1.55, 1.54, and 1.51 eV, respectively, which indicates their potential applications in thin-film solar cells.