期刊
CHEMCATCHEM
卷 12, 期 8, 页码 2304-2314出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/cctc.201902152
关键词
Fischer-Tropsch synthesis; ordered mesoporous bimetal oxides (m-CoFe); structural stability; spinel CoFe2O4; iron carbides
A higher selectivity to C-2-C-4 hydrocarbons and clean fuels without significant deactivation during CO hydrogenation by a typical Fischer-Tropsch synthesis (FTS) was observed on the ordered mesoporous 5wt %Al-modified Co3O4-Fe2O3 bimetal oxides (m-CoFe) at a Co/Fe molar ratio of similar to 1, which was prepared by a hard templating and co-infiltration method. The active sites were related with the partially oxidized Co nanoparticles as well as iron carbides. The structurally stable and strongly interacted ordered Co3O4-Fe2O3 mesoporous structures were preferentially transformed to more brittle iron carbides with a simultaneous reduction of Co3O4 to metallic Co under a reductive FTS reaction condition. The m-CoFe(1) itself without using any solid acid component revealed a higher C-2-C-4 selectivity of 21.1 % and C5+ selectivity of 67.9 % at CO conversion of 88.5 % with the corresponding rate of 2.77 mmol/(g(cat).s) by enhancing its structural stability due to the partial formations of thermally stable spinel-type CoFe2O4. The enhanced structural stability of the m-CoFe(1) was attributed to the preferential formations of the strongly interacted and partially oxidized Co nanoparticles with the formation of active iron carbides as well.
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