Photocatalytic degradation indoor toluene is one of the most environment-compatible strategies for manufacturing advanced air purifiers. A novel self-supporting photocatalysts, Pt/Cu2O nanowires growing from Cu mesh were constructed using energy-saving methods. The 5 nm Pt nanoparticles are well dispersed on Cu2O, establishing intimate Pt/Cu2O Schottky junction that curtails electron-hole recombination. Additionally, Pt nanoparticles contribute a plasmonic heating effect and an oscillating electric field for accelerating the photocatalytic rates and enhancing overall catalytic activity. By virtue of the Pt/Cu2O Schottky junction and plasmonic effect of the Pt nanoparticles, toluene is efficiently mineralized into CO2 and H2O. The optimal Pt/Cu2O catalyst achieve a toluene elimination rate of 93.65%, with the mineralization degree high up to 92.23%. This study confirms the practicability of the self-supporting Pt/Cu2O catalyst, which figures out new ideas for designing high-performance photocatalyst for removing typical and toxic volatile organic compounds.