RESUMEN
The (noble metal/non-noble metal)/semiconductor are efficient and attractive ternary photocatalysts for photocatalytic hydrogen evolution. To deeply understand the advantages of ternary photocatalysts, the physicochemical characteristics of both the whole ternary photocatalysts and each part of that must be revealed. Herein, we design (Pd/WP) as a co-catalyst loaded on CdS to form ternary photocatalysts (Pd/WP)/CdS. The (0.05%Pd/4%WP)/CdS exhibits a high hydrogen evolution activity of 18.0 mmol/h/g, which is 1.5 times of WP/CdS, 2.2 times of Pd/CdS, and 6.4 times of pure CdS. Additionally, photoelectrochemical tests demonstrate that (Pd/WP)/CdS has appropriate capacitance, excellent conductivity and strong catalytic ability, which can inhibit the recombination of photo-excited carries and boost hydrogen evolution. Especially, ultraviolet photoelectron spectroscopy (UPS) tests show that the conduction band (CB) position of (Pd/WP)/CdS can be regulated successfully through synergistic effect of Pd, WP, and CdS. This study not only reveals the physicochemical properties of ternary photocatalysts from a holistic perspective, but also provides a pathway for hydrogen evolution of scientific and economic interest.