Preparation of mesoporous CexCoO as highly effective catalysts for toluene combustion: The synergetic effects of structural template and Ce doping

Cobalt-based catalyst, as a typical catalyst for volatile organic compounds (VOCs) combustion, has attracted extensive attention. However, the catalytic activity of pure Co(3)O(4)is difficult to meet the requirements of practical application especially at low temperatures. Therefore, it is key to find an effective way to improve the catalytic performance of Co3O4. In this paper, Co(3)O(4)is modified by engineering a combination of structural template and Ce dopant. The various characterization results verify that the template agent and the doping of appropriate Ce lead to great changes in the texture property and low temperature reducibility of Co3O4, thus resulting in superior catalytic performances of obtained mesoporous CexCoO catalysts. In particular, the best catalyst, Ce0.05CoO, achieves a toluene conversion of T(90%)at 238 degrees C, which is significantly lower than many of the Co-based catalysts reported in previous literatures. Furthermore, the toluene conversion rate maintains above 90% during 100 h at 238 degrees C. The excellent catalytic performance of Ce0.05CoO can be attributed to its large specific surface area, uniform pore structure, good low temperature reducibility, and abundant surface oxygen species.

Automated summary

Modifying Co(3)O(4) through a combination of structural template and Ce dopant can significantly improve its catalytic performance, leading to the superior catalytic performance of mesoporous CexCoO catalysts. Among them, Ce0.05CoO performs the best, achieving a toluene conversion rate of 90% at 238 degrees Celsius, which is maintained above 90% during 100 hours.