Abstract
A range of cobalt catalysts, prepared using TiO2 enwrapped with a hydrothermal carbon (HTC) layer, was used as a support for the Fischer–Tropsch synthesis (FTS). The effects of the HTC coating thickness and annealing process of HTC–TiO2 on the structure and performance of the cobalt catalysts were investigated. The HTC coating with enrichment functional groups (e.g., COOH and COH) generated a strong interaction with the Co species during catalyst preparation and finally enhanced cobalt oxide dispersion. Furthermore, the protection of the surface of TiO2 by a HTC coating improved the reducibility of the cobalt catalysts. The Co particle size was correlated with the thickness of HTC coating and the HTC–TiO2 support annealing process. It was found that the HTC–TiO2 support with a coating thickness of 8 nm and without an annealing process gave catalysts with a cobalt particle size of 8.6 nm and optimal FTS performance. The corresponding Co/8C-TiO2 catalyst exhibited an activity 2.4 times higher than that of a...
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