Suyao Liu scite author profile

An approach using cobalt metal-organic frameworks (Co-MOF) as precursors is established for the fabrication of cobalt nanoparticles in porous carbon shells (core/shell Co@C). Ethyne deposition is used for controlling the reduction of cobalt nanoclusters in the MOF and the spontaneous formation of the porous carbon shells. The metallic cobalt cores formed are up to 4-6 nm with the crystal phase varying between hexagonally-closepacked (hcp) and face-centre-packed (fcc). The porous carbon shells changes from amorphous to graphene with the ethyne deposition temperature increasing from 400 to 600 o C. The core/shell Co@C nanoparticles exhibit high catalytic activity in selectively converting syngas (CTY: 254.1-312.1 μmolCOꞏgCo-1 ꞏs-1) into hydrocarbons (4.0-5.2 gHCꞏg-cat-1 ꞏh-1) at 260 o C. As well as the crystal size and phase, the coordination numbers of the cobalt to oxygen and to other cobalt atoms on the surface of the cobalt nanoparticles, and the permeability of the porous carbon shell have been related to the catalytic performance in FTS reactions.

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Suyao Liu

Synthesis, characterization and isomerization performance of micro/mesoporous materials based on H-ZSM-22 zeolite

Synthesis and characterization of the Fe-substituted ZSM-22 zeolite catalyst with high n-dodecane isomerization performance

Ethyne-Reducing Metal–Organic Frameworks to Control Fabrications of Core/shell Nanoparticles as Catalysts

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