Preparation and characterization of stable Ru nanoparticles embedded on the ordered mesoporous carbon material for applications in Fischer–Tropsch synthesis

[Display omitted] ▶ A novel Ru–OMC catalyst was prepared by autoreduction reaction. ▶ Ru nanoparticles were embedded on the carbon walls of the ordered mesoporous carbon material. ▶ The Ru–OMC catalyst retained original ordered mesoporous structure. ▶ The Ru–OMC catalyst exhibited superior catalytic...

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Veröffentlicht in:	Applied catalysis. A, General General, 2010-12, Vol.389 (1), p.173-178
Hauptverfasser:	Xiong, Kun, Li, Jinlin, Liew, Kongyong, Zhan, Xiaodong
Format:	Artikel
Sprache:	eng
Schlagworte:	Adsorbents Carbon Catalysis Catalysts Chemistry Colloidal state and disperse state Contact Diffraction Embedded Exact sciences and technology Fischer–Tropsch synthesis General and physical chemistry Nanoparticles Ordered mesoporous carbon Physical and chemical studies. Granulometry. Electrokinetic phenomena Porous materials Ruthenium Surface physical chemistry Synthesis Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry Walls
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container_title	Applied catalysis. A, General
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creator	Xiong, Kun Li, Jinlin Liew, Kongyong Zhan, Xiaodong
description	[Display omitted] ▶ A novel Ru–OMC catalyst was prepared by autoreduction reaction. ▶ Ru nanoparticles were embedded on the carbon walls of the ordered mesoporous carbon material. ▶ The Ru–OMC catalyst retained original ordered mesoporous structure. ▶ The Ru–OMC catalyst exhibited superior catalytic activity for Fischer–Tropsch synthesis. A novel Ru–OMC catalyst was prepared by autoreduction reaction between a ruthenium precursor and a carbon source at 1123 K. Ruthenium nanoparticles were embedded on the carbon walls of the ordered mesoporous carbon material. Characterization tools including power X-ray diffraction (XRD), nitrogen adsorption–desorption, and transmission electron microscopy (TEM) were used to scrutinize the catalysts. The catalyst activity for Fischer–Tropsch synthesis (FTS) was carried out in a fixed bed reactor. For comparison, Ru catalysts supported on ordered mesoporous carbon (OMC), active carbon (AC), and carbon nanotubes (CNT) were prepared using conventional impregnation method and evaluated at the same FTS reaction conditions. The Ru–OMC catalyst exhibited highly ordered mesoporous structure and large surface area, indistinguishable with those of the OMC material. On this catalyst, Ru nanoparticles were actually embedded on the carbon walls, forming an intimate contact with the carbon supports. It is proposed that this feature might create certain electron-deficient sheets on the interfacial contact, which facilitates the transfer of spilled-over hydrogen and improves hydrogen disassociation on the catalyst surface.
doi_str_mv	10.1016/j.apcata.2010.09.012
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A novel Ru–OMC catalyst was prepared by autoreduction reaction between a ruthenium precursor and a carbon source at 1123 K. Ruthenium nanoparticles were embedded on the carbon walls of the ordered mesoporous carbon material. Characterization tools including power X-ray diffraction (XRD), nitrogen adsorption–desorption, and transmission electron microscopy (TEM) were used to scrutinize the catalysts. The catalyst activity for Fischer–Tropsch synthesis (FTS) was carried out in a fixed bed reactor. For comparison, Ru catalysts supported on ordered mesoporous carbon (OMC), active carbon (AC), and carbon nanotubes (CNT) were prepared using conventional impregnation method and evaluated at the same FTS reaction conditions. The Ru–OMC catalyst exhibited highly ordered mesoporous structure and large surface area, indistinguishable with those of the OMC material. On this catalyst, Ru nanoparticles were actually embedded on the carbon walls, forming an intimate contact with the carbon supports. It is proposed that this feature might create certain electron-deficient sheets on the interfacial contact, which facilitates the transfer of spilled-over hydrogen and improves hydrogen disassociation on the catalyst surface.</description><identifier>ISSN: 0926-860X</identifier><identifier>EISSN: 1873-3875</identifier><identifier>DOI: 10.1016/j.apcata.2010.09.012</identifier><language>eng</language><publisher>Kidlington: Elsevier B.V</publisher><subject>Adsorbents ; Carbon ; Catalysis ; Catalysts ; Chemistry ; Colloidal state and disperse state ; Contact ; Diffraction ; Embedded ; Exact sciences and technology ; Fischer–Tropsch synthesis ; General and physical chemistry ; Nanoparticles ; Ordered mesoporous carbon ; Physical and chemical studies. Granulometry. Electrokinetic phenomena ; Porous materials ; Ruthenium ; Surface physical chemistry ; Synthesis ; Theory of reactions, general kinetics. Catalysis. 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A, General</title><description>[Display omitted] ▶ A novel Ru–OMC catalyst was prepared by autoreduction reaction. ▶ Ru nanoparticles were embedded on the carbon walls of the ordered mesoporous carbon material. ▶ The Ru–OMC catalyst retained original ordered mesoporous structure. ▶ The Ru–OMC catalyst exhibited superior catalytic activity for Fischer–Tropsch synthesis. A novel Ru–OMC catalyst was prepared by autoreduction reaction between a ruthenium precursor and a carbon source at 1123 K. Ruthenium nanoparticles were embedded on the carbon walls of the ordered mesoporous carbon material. Characterization tools including power X-ray diffraction (XRD), nitrogen adsorption–desorption, and transmission electron microscopy (TEM) were used to scrutinize the catalysts. The catalyst activity for Fischer–Tropsch synthesis (FTS) was carried out in a fixed bed reactor. For comparison, Ru catalysts supported on ordered mesoporous carbon (OMC), active carbon (AC), and carbon nanotubes (CNT) were prepared using conventional impregnation method and evaluated at the same FTS reaction conditions. The Ru–OMC catalyst exhibited highly ordered mesoporous structure and large surface area, indistinguishable with those of the OMC material. On this catalyst, Ru nanoparticles were actually embedded on the carbon walls, forming an intimate contact with the carbon supports. It is proposed that this feature might create certain electron-deficient sheets on the interfacial contact, which facilitates the transfer of spilled-over hydrogen and improves hydrogen disassociation on the catalyst surface.</description><subject>Adsorbents</subject><subject>Carbon</subject><subject>Catalysis</subject><subject>Catalysts</subject><subject>Chemistry</subject><subject>Colloidal state and disperse state</subject><subject>Contact</subject><subject>Diffraction</subject><subject>Embedded</subject><subject>Exact sciences and technology</subject><subject>Fischer–Tropsch synthesis</subject><subject>General and physical chemistry</subject><subject>Nanoparticles</subject><subject>Ordered mesoporous carbon</subject><subject>Physical and chemical studies. Granulometry. Electrokinetic phenomena</subject><subject>Porous materials</subject><subject>Ruthenium</subject><subject>Surface physical chemistry</subject><subject>Synthesis</subject><subject>Theory of reactions, general kinetics. Catalysis. 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A, General</jtitle><date>2010-12-01</date><risdate>2010</risdate><volume>389</volume><issue>1</issue><spage>173</spage><epage>178</epage><pages>173-178</pages><issn>0926-860X</issn><eissn>1873-3875</eissn><abstract>[Display omitted] ▶ A novel Ru–OMC catalyst was prepared by autoreduction reaction. ▶ Ru nanoparticles were embedded on the carbon walls of the ordered mesoporous carbon material. ▶ The Ru–OMC catalyst retained original ordered mesoporous structure. ▶ The Ru–OMC catalyst exhibited superior catalytic activity for Fischer–Tropsch synthesis. A novel Ru–OMC catalyst was prepared by autoreduction reaction between a ruthenium precursor and a carbon source at 1123 K. Ruthenium nanoparticles were embedded on the carbon walls of the ordered mesoporous carbon material. Characterization tools including power X-ray diffraction (XRD), nitrogen adsorption–desorption, and transmission electron microscopy (TEM) were used to scrutinize the catalysts. 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subjects	Adsorbents Carbon Catalysis Catalysts Chemistry Colloidal state and disperse state Contact Diffraction Embedded Exact sciences and technology Fischer–Tropsch synthesis General and physical chemistry Nanoparticles Ordered mesoporous carbon Physical and chemical studies. Granulometry. Electrokinetic phenomena Porous materials Ruthenium Surface physical chemistry Synthesis Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry Walls
title	Preparation and characterization of stable Ru nanoparticles embedded on the ordered mesoporous carbon material for applications in Fischer–Tropsch synthesis
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