ZIF-derived hierarchical pore carbons as high-performance catalyst for methane decomposition

Catalytic methane decomposition (CMD) is a promising route for H2 production. In this paper, MOF-derived hierarchical carbon catalysts were prepared by the carbonization of ZIF-8 with additional carbon source and used for CMD. The effects of carbonization temperature, reaction temperature, and the kinds of additional carbon sources on the structure of derived carbon materials and their catalytic performances were studied. The results showed that the morphology and textural properties can be improved by varying the carbonization temperature and additional carbon source. The specific surface area of the ZIF-derived carbon can be significantly increased, and the hierarchical pore structure with improved pore size distribution can be obtained, which leads to good performances for CMD. Catalytic performance can be obviously enhanced by increasing the reaction temperature. The C950-FA prepared by carbonization of ZIF-8 with furfuryl alcohol as additional carbon source exhibits the highest initial conversion of methane (64%) and good stability at 890 degrees C. About 11% methane conversion was kept after 2750 min. This study provides a new route for the preparation of carbon material catalysts to achieve high-efficient conversion of methane.

Automated summary

Catalytic methane decomposition (CMD) is a promising route for H2 production. In this study, MOF-derived hierarchical carbon catalysts were prepared and their catalytic performances were investigated. The results showed that by adjusting the carbonization temperature and carbon source, the morphology and pore structure of the derived carbon materials can be improved, leading to enhanced catalytic performance. Increasing the reaction temperature also significantly enhanced the catalytic performance.