Abstract
In a search for improved photocathode materials for fuel-producing photoelectrochemical cells, quaternary AgxCu1–xGayIn1–yS2 (0 ≤ x ≤ 1.0, 0 ≤ y ≤ 1.0) p-type, chalcopyrite semiconductors (SCIGS) were prepared and tested for photochemical hydrogen evolution. The study reported here is based on the preparation of bulk phases of the quaternary system. In contrast to thin-film studies of this system, this approach enables enhanced control of the materials’ chemical, structural, and electronic properties. Compared to ternary CIGS electrode materials, the quaternary SCIGS materials provide improved photoelectrochemical and electrocatalytic properties. The quaternary system allows for adjustment of the band structures and photocatalytic abilities to a finer degree than is possible in the AgxCu1–xGaS2 or AgxCu1–xInS2 ternaries, and several of the quaternary AgxCu1–xGayIn1–yS2 compositions are found to show better water-splitting capability than the ternaries, even when a platinum co-catalyst is present in the te...
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