Controllable encapsulation of cobalt clusters inside carbon nanotubes as effective catalysts for Fischer–Tropsch synthesis

•We realize the controllable encapsulation of Co clusters inside CNTs channels.•The oxygen-containing functional groups are selectively removed.•The cobalt nanoparticles inside the CNTs channel reach up to 80%.•The Co/CNTs-650 catalyst exhibits high activity and C5+ selectivity. By using the combina...

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Bibliographic Details
Published inCatalysis today Vol. 215; pp. 24 - 28
Main Authors Xing, Chuang, Yang, Guohui, Wang, Ding, Zeng, Chunyang, Jin, Yuzhou, Yang, Ruiqin, Suehiro, Yoshifumi, Tsubaki, Noritatsu
Format Journal Article Conference Proceeding
LanguageEnglish
Published Amsterdam Elsevier B.V 15.10.2013
Elsevier
Subjects
Carbon nanotubes
Catalysis
Chemistry
Cobalt
Encapsulation
Exact sciences and technology
Fischer–Tropsch synthesis
General and physical chemistry
Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry
Encapsulation
Carbon nanotubes
Cobalt
Fischer–Tropsch synthesis
Heterogeneous catalysis
Fischer Tropsch synthesis
Transition metal
Synthetic fuel
Fischer―Tropsch synthesis
Catalyst
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Summary:•We realize the controllable encapsulation of Co clusters inside CNTs channels.•The oxygen-containing functional groups are selectively removed.•The cobalt nanoparticles inside the CNTs channel reach up to 80%.•The Co/CNTs-650 catalyst exhibits high activity and C5+ selectivity. By using the combination of concentrated nitric acid refluxing, varied thermal treatment and wetness impregnation method on carbon nanotubes (CNTs), we realized the controllable encapsulation of cobalt clusters inside the channels of CNTs. The analysis results by TPD and TEM on the prepared cartalysts indicated that the controllable encapsulation of cobalt clusters in CNTs channels was realized more readily by controlling the thermal treatment on pristine CNTs support at different temperature. For the Co/CNTs-650 catalyst employing thermal treated CNTs at 650°C, the cobalt nanoparticles inside the CNTs channel reached up to 80% with the particles size of 5–10nm. The thermal treatment on the pristine CNTs support at this optimized temperature effectively removed the oxygen-containing functional groups on the surface of CNTs, simultaneously keeping the integrity of CNTs walls. The influence of varied thermal treatment of the CNTs support to the catalytic performance of the final Co/CNTs catalysts in the Fischer–Tropsch synthesis (FTS) was investigated. The FTS reaction results on the Co/CNTs-650 catalyst showed both the best CO conversion of 89.3% and the highest C5+ hydrocarbon selectivity of 83.7%, at the same time holding the lowest CH4 selectivity of only 8.4% among all the tested FTS catalysts.
ISSN:0920-5861
1873-4308
DOI:10.1016/j.cattod.2013.02.018