Convenient photooxidation of alcohols using dye sensitised semiconductors in combination with silver nitrate and TEMPO – an electron paramagnetic resonance study

Abstract

A mechanistic investigation into the photooxidation of alcohols using dye sensitised titanium dioxide and dye sensitised zinc oxide is described. The varying yields using the two photocatalysts have been explained using electron paramagnetic resonance (EPR) spectroscopy, which indicated that electron injection occurs in the dye sensitised ZnO system but is sluggish in the dye sensitised TiO₂ system. Due to the failure of the electron injection step, a ‘break’ in the photooxidative system occurs resulting in a decrease in the conversion of benzyl alcohol to benzaldehyde for the dye sensitised TiO₂ system.