News Release

New strategy for enhancing H2O2 utilization in photocatalytic reaction

Peer-Reviewed Publication

University of Science and Technology of China

Recently, a research team led by Prof. HUANG Weixin from the University of Science and Technology of China (USTC) of the Chinese Academy of Sciences (CAS) realized the production of oxygenated chemicals from methane and H2O2 with oxide semiconductor as photocatalyst, revealed a new strategy for improving H2O2 utilization and photocatalytic conversion efficiency from methane to oxygenates, and studied the photocatalytic activity and selectivity by tuning TiO2 facets. This work was published in Nature Communications

Methane has been increasingly considered as a possible carbon resource, but it is a major challenge to convert methane to value-added chemicals with both high activity and selectivity.

H2Ois a common oxidant that could photocatalytically convert liquid-phase methane to value-added chemicals. It reacts with photogenerated electrons and produce ·OH radicals or ·OOH radicals, which is an effective activation method. Unfortunately, H2O2 is subjected to side reaction with photogenerated holes and tends to converts itself to O2, reducing its utilization.

In this study, the researchers aerated Ointo the semiconductor photocatalytic reaction system containing methane and H2O2, and found that H2Outilization was enhanced. They discovered that the adsorption of O2 onto the surface of TiO2 inhibited the adsorption of H2O2, which suppressed side reactions. 

In addition, the researchers observed that photocatalytic activity and selectivity was determined by TiO2 facets. In virtue of theoretical calculation, they discovered that it was the desorption energy of different products on different TiO2 facets that accounted for the different catalytic selectivity. For example, CH3OOH had low desorption energy on TiO2{101}, thus it was the only liquid-phase product of TiO2{101}-C3N4 composite. 

This work offered a new strategy for improving H2O2 utilization and conversion efficiency in the photocatalytic conversion from methane to oxygenates. It also manifested the role that the catalyst facets played during photocatalytic reactions. 

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