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Phase-controlled synthesis of thermally stable nitrogen-doped carbon supported iron catalysts for highly efficient Fischer-Tropsch synthesis 被引量:4
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作者 Jin Hee Lee Hack-Keun Lee +9 位作者 Dong Hyun Chun Hyunkyung Choi Geun Bae Rhim Min Hye Youn Heondo Jeong shin wook kang Jung-ll Yang Heon Jung Chui Sung Kim Ji Chan Park 《Nano Research》 SCIE EI CAS CSCD 2019年第10期2568-2575,共8页
Iron-based nan oparticles with un iform and high particle dispersi on,which are supported on carb on structures,have been used for various applications.However,their preparation still suffers from complicated synthesi... Iron-based nan oparticles with un iform and high particle dispersi on,which are supported on carb on structures,have been used for various applications.However,their preparation still suffers from complicated synthesis involving multiple steps and from the high price of precursors and solve nts.In the prese nt work,a new carbon en capsulated iron-carbide nano particle supported on n itroge rvdoped porous carbon(Fe5C2@C/NPC)structure was introduced.It was made using a simple solid-state reaction with sequential thermal treatments.Fe5C2@C/NPC is a highly active and stable catalyst for the high-temperature Fischer-Tropsch synthesis reaction.It showed very high hydrocarbon productivity(4.71 gHc gcat^-1·h^-1)with high CO conversions(up to 96%). 展开更多
关键词 iron-carbide ONE-POT SYNTHESIS NITROGEN-DOPED graphene FISCHER-TROPSCH SYNTHESIS Mdssbauer spectroscopy
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Synthesis of Co/SiO2 hybrid nanocatalyst via twisted Co3Si2O5(OH)4 nanosheets for high-temperature Fischer- Tropsch reaction 被引量:2
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作者 Ji Chan Park shin wook kang +9 位作者 Jeong-Chul Kim Jae In Kwon Sanha Jang Geun Bae Rhim Mijong Kim Dong Hyun Chun Ho-Tae Lee Heon Jung Hyunjoon Song Jung-li Yang 《Nano Research》 SCIE EI CAS CSCD 2017年第3期1044-1055,共12页
A cobalt-silica hybrid nanocatalyst bearing small cobalt particles of diameter -5 nm was prepared through a hydrothermal reaction and hydrogen reduction. The resulting material showed very high CO conversion (〉82%)... A cobalt-silica hybrid nanocatalyst bearing small cobalt particles of diameter -5 nm was prepared through a hydrothermal reaction and hydrogen reduction. The resulting material showed very high CO conversion (〉82%) and high hydrocarbon productivity (-1.0gHC·gcat^-1·h^-1 ) with high activity (-8.5 × 10^-5 molco.gco^-1.s-1) in the Fischer-Tropsch synthesis reaction. 展开更多
关键词 hybrid nanostructure Fischer-Tropsch synthesis thermal stability metal silicate hydroxide cobalt catalyst
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