Zn2x(CuIn)1−xS2 photocatalysts synthesis by a hydrothermal process using H4EDTA as complexing agent

The study of the Zn2x(CuIn)1−xS2 (0 ≤ x ≤ 1) solid solutions formation by hydrothermal synthesis using ethylenediaminetetraacetic acid (H4EDTA) as a complexant and surfactant agent is reported for the first time. Different synthesis parameters were varied: the H4EDTA concentration, the initial pH value, the Tu concentration, the duration and temperature of autoclaving process. The as obtained powders were characterized by X-ray powder diffraction (XRD), energy dispersive X-ray spectroscopy (EDX), scanning electron microscopy (SEM) and UV/vis/NIR diffuse reflection spectroscopy (DRS). The XRD and EDX results show that, with a careful adjustment of the reaction conditions, especially of the H4EDTA concentration and initial pH value of the precursor solution, a mixture of solid solutions with sphalerite type structure can be obtained, which transforms into a single phase solid solution after heat treatment. The particles, as revealed by SEM investigations, have nanoporous hexagonal microplates morphology, about 1 μm thick and several microns in diameter. The Cu0.159In0.111Zn1.778S2 photocatalyst obtained by this method presents photocatalytic activity for hydrogen evolution from aqueous solutions containing S2− ions as sacrificial agent, even without cocatalyst.

► Hydrothermal synthesis of Zn2x(CuIn)1−xS2 photocatalysts with H4EDTA complexing agent. ► At reaction temperatures below 210 °C the obtained products are poor in indium. ► EDTA favors formation of Zn2x(CuIn)1−xS2 solid solutions under certain conditions. ► Hydrogen evolution occurs over Cu0.159In0.111Zn1.778S2 photocatalyst without cocatalyst.