Monometallic and bimetallic SiC(O) ceramic with Ni, Co and/or Fe nanoparticles for catalytic applications

Monometallic (Ni, Co or Fe-SiC(O)) and bimetallic (Ni, Co or FeM-SiC(O) with M = Ni or Co) ceramic nanocomposites have been successfully prepared using polymeric precursors obtained by chemical modification of polycarbosilane with metal acetylacetonate. The nanocomposites consist of homogeneously distributed metal nanoparticles within an amorphous SiC(O). The specific surface area (SSA) of Ni, Co or Fe-SiC(O)600 nanocomposites were found to be 155, 50 or 14 m(2)/g. However, the addition of Fe to the Ni-or Co-containing precursors tends to increase the SSA to 290 or 170 m(2)/g. Maximum CO2 conversion for monometallic samples was found to be 40% at 500 degrees C for Ni-SiC(O)600 and maximum CH4 selectivity was 61% at 300 degrees C for Co-SiC(O)600. The additional presence of Co and Ni in the respective nanocomposites helps to increase the CO2 conversion and selectivity at 500 degrees C whereas Fe modification shows high methane selectivity at lower temperature < 350 degrees C.

Automated summary

Monometallic and bimetallic ceramic nanocomposites were prepared using polymeric precursors and metal acetylacetonate. The addition of Fe to Ni or Co containing precursors increased the specific surface area. The bimetallic samples showed higher CO2 conversion and selectivity, while the Fe modified samples exhibited high methane selectivity at lower temperatures.