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4770328 
Journal Article 
In situ monitoring during the transition of cobalt carbide to metal state and its application as Fischer-Tropsch catalyst in slurry phase 
Kwak, G; Woo, MinHee; Kang, SC; Park, HaeGu; Lee, YunJo; Jun, KiWon; Ha, KSu 
2013 
Yes 
Journal of Catalysis
ISSN: 0021-9517
EISSN: 1090-2694 
307 
27-36 
WOS:000327903900003 
The low-temperature rapid transition of cobalt carbide to metal cobalt species in a H-2 environment was studied using in situ analyses, including temperature-programmed decarburization, in situ diffuse reflectance infrared Fourier-transform spectroscopy, X-ray absorption spectroscopy, and time-resolved gas chromatography profiles, during hydrogenation of cobalt carbide. Cobalt carbide was readily prepared by treatment of cobalt metal species in pure CO. By monitoring the evolution of cobalt carbide during hydrogenation, the analysis results give direct evidence for the formation of the cobalt metal hexagonal close packed (hcp) phase and light hydrocarbons (methane, ethane, and propane) as the products of hydrogenation of carbonaceous species on/in the cobalt carbide and clearly demonstrate that hydrogenation was completed at 220 degrees C in excess H-2 within 2 h. As a result of the low-temperature transition of cobalt carbide, before slurry-phase Fischer-Tropsch (FTS), an activated metal cobalt catalyst was easily obtained in situ by H-2 bubbling at 220 degrees C, in the slurry phase. Moreover, the cobalt metal hcp phase derived from cobalt carbide exhibited significantly improved catalytic performance in H'S compared with the cobalt metal face-centered cubic phase obtained by cobalt oxide catalyst reduction. These results not only broaden and deepen fundamental understanding of the hydrogenation of cobalt carbide but also provide a potential facile activation route for cobalt catalysts for the synthesis of clean hydrocarbon fuels from syngas. (C) 2013 Elsevier Inc. All rights reserved. 
Cobalt carbide; Fischer-Tropsch synthesis; Heterogeneous catalyst 
IRIS
• Cobalt
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