AUTHORS:

Jakubow-Piotrowska K., Witkowski B., Wróbel P., Miecznikowski K., Augustyński J.

ABSTRACT:

WO₃/Ag/TiO₂ composite photoelectrodes were formed via the high-temperature calcination of a WO₃ film, followed by the sputtering of a very thin silver film and deposition of an overlayer of commercial TiO₂ nanoparticles. These synthetic photoanodes were characterized in view of the oxidation of a model organic compound glucose combined with the generation of hydrogen at a platinum cathode. During prolonged photoelectrolysis under simulated solar light, these photoanodes demonstrated high and stable photocurrents of ca. 4 mA cm⁻² due, on one hand, to the occurrence of the so-called photocurrent doubling and, on the other hand, to the plasmonic effect of Ag nanoparticles. The post-photoelectrolysis analyses of the electrolyte demonstrated the formation of high-value final glucose photo-reforming products, principally gluconic acid, erythrose and formic acid.

Nanomaterials, 2024, vol. 14(24), art. 2001, 10.3390/nano14242001