Photo reduction of CO2 to CH4 on g-C3N4: The effect of concentrating light and pretreatment

Abstract

The behavior of CO2 photoreduction to CH4 on the g−C3N4 catalyst was studied in a concentrating light reactor. The g−C3N4 catalysts before and after pretreatment were characterized by FE−SEM, XRD and photoilluminance. It is found that concentrating light increases the CH4 yield on the g−C3N4 by heightening the incident light intensity, and light pretreatment has an excessive effect on the performance. Pretreated by suitable light intensity, air atmosphere and time, the CH4 yield on the g-C3N4 under concentrating light irradiation reached about 3.39 μmol·g-1·h-1, which is about 16 times of that g−C3N4 reacted at nature incident light without pretreatment. The mechanism of pretreatment is considered to be from the surface oxidation state change of the catalyst either from the oxidation of the catalyst surface or the activation of surface oxygen.