Boosting Reactive Oxygen Species Formation Over Pd and VOδ Co-Modified TiO2 for Methane Oxidation into Valuable Oxygenates

Abstract

Direct photocatalytic methane oxidation into value-added products provides a promising strategy for methane utilization. However, the inefficient generation of reactive oxygen species (ROS) partly limits the activation of CH₄ . Herein, it is reported that Pd and VO_δ co-modified TiO₂ enables direct and selective methane oxidation into liquid oxygenates in the presence of O₂ and H₂ . Due to the extra ROS production from the in situ formed H₂ O₂ , a highly improved yield rate of 5014 µmol g^-1 h^-1 for liquid oxygenates with a selectivity of 89.3% is achieved over the optimized Pd_0.5 V_0.2 -TiO₂ catalyst at ambient temperature, which is much better than those (2682 µmol g^-1 h^-1 , 77.8%) without H₂ . Detailed investigations also demonstrate the synergistic effect between Pd and VO_δ species for enhancing the charge carrier separation and transfer, as well as improving the catalytic activity for O₂ reduction and H₂ O₂ production.

Keywords: hydrogen peroxide; methane oxidation; oxygenates; photocatalysis; reactive oxygen species.