Efficient Degradation of Toluene over MnO2/TiO2 Nanobelts under Vacuum Ultraviolet Irradiation

Toluene, as a kind of volatile organic compounds, not only causes pollution to the atmosphere and water but also damages human health. Although vacuum ultraviolet (VUV) can effectively promote the degradation of toluene, it will produce a large amount of O3, which will cause secondary pollution. Therefore, it is very important to study catalysts that can promote both toluene degradation and ozone decomposition. In this work, a MnO2/TiO2 catalyst with uniformly dispersed MnO2 was prepared using the immersion reduction method, which was used to degrade toluene under VUV. The toluene removal efficiency was improved by the utilization and elimination of O3. The toluene removal efficiency over the prepared MnO2/TiO2 catalyst was 88%, and the O3 removal rate was 97%. The toluene removal efficiency under VUV was 4.9 times that of UV. The synergistic effect of VUV and multifunctional catalyst effectively improved the toluene removal efficiency.

Automated summary

A MnO2/TiO2 catalyst with uniformly dispersed MnO2 was prepared and used for the degradation of toluene under VUV. The catalyst improved the toluene removal efficiency and eliminated O3, with a toluene removal rate of 88% and an O3 removal rate of 97%. The toluene removal efficiency under VUV was 4.9 times that of UV, and the synergistic effect of VUV and multifunctional catalyst effectively improved the toluene removal efficiency.