Controllably oxidized copper flakes as multicomponent copper-based catalysts for the Rochow reaction

The metallic Cu flakes prepared by milling metallic Cu powder were controllably oxidized in air at different temperatures to obtain the Cu-based catalysts containing multicomponents of Cu, Cu sub(2)O, and CuO. These catalysts are explored in the Rochow reaction using silicon powder and methyl chlori...

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Veröffentlicht in:	RSC advances 2014, Vol.4 (15), p.7826-7833
Hauptverfasser:	Liu, Shaomian, Wang, Yingli, Zhu, Yongxia, Wang, Guangna, Zhang, Zailei, Che, Hongwei, Jia, Lihua, Su, Fabing
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Sprache:	eng
Schlagworte:	Catalysis CATALYSTS Copper COPPER OXIDE CUPRIC OXIDE Flakes OXIDATION PARTICLE SIZE AND SHAPE Reduction Scanning electron microscopy Silicon Thermogravimetric analysis
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creator	Liu, Shaomian Wang, Yingli Zhu, Yongxia Wang, Guangna Zhang, Zailei Che, Hongwei Jia, Lihua Su, Fabing
description	The metallic Cu flakes prepared by milling metallic Cu powder were controllably oxidized in air at different temperatures to obtain the Cu-based catalysts containing multicomponents of Cu, Cu sub(2)O, and CuO. These catalysts are explored in the Rochow reaction using silicon powder and methyl chloride (MeCl) as reactants to produce dimethyldichlorosilane (M2), which is the most important organosilane monomer in the industry. The samples were characterized by X-ray diffraction, temperature-programmed reduction, thermogravimetric analysis, oxidimetry analysis, particle size analysis, transmission electron microscopy, and scanning electron microscopy. Compared to the metallic Cu powder and Cu flakes, the controllably oxidized Cu flakes containing Cu, Cu sub(2)O, and CuO species show much higher M2 selectivity and silicon conversion in the Rochow reaction. The enhanced catalytic performance may stem from the larger interfacial contact among the gas MeCl, solid Si particles, and solid Cu-based catalyst flakes, as well as the synergistic effect among the different Cu species. The work would be helpful to the development of novel Cu-based catalysts for organosilane synthesis.
doi_str_mv	10.1039/c3ra46970k
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These catalysts are explored in the Rochow reaction using silicon powder and methyl chloride (MeCl) as reactants to produce dimethyldichlorosilane (M2), which is the most important organosilane monomer in the industry. The samples were characterized by X-ray diffraction, temperature-programmed reduction, thermogravimetric analysis, oxidimetry analysis, particle size analysis, transmission electron microscopy, and scanning electron microscopy. Compared to the metallic Cu powder and Cu flakes, the controllably oxidized Cu flakes containing Cu, Cu sub(2)O, and CuO species show much higher M2 selectivity and silicon conversion in the Rochow reaction. The enhanced catalytic performance may stem from the larger interfacial contact among the gas MeCl, solid Si particles, and solid Cu-based catalyst flakes, as well as the synergistic effect among the different Cu species. 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These catalysts are explored in the Rochow reaction using silicon powder and methyl chloride (MeCl) as reactants to produce dimethyldichlorosilane (M2), which is the most important organosilane monomer in the industry. The samples were characterized by X-ray diffraction, temperature-programmed reduction, thermogravimetric analysis, oxidimetry analysis, particle size analysis, transmission electron microscopy, and scanning electron microscopy. Compared to the metallic Cu powder and Cu flakes, the controllably oxidized Cu flakes containing Cu, Cu sub(2)O, and CuO species show much higher M2 selectivity and silicon conversion in the Rochow reaction. The enhanced catalytic performance may stem from the larger interfacial contact among the gas MeCl, solid Si particles, and solid Cu-based catalyst flakes, as well as the synergistic effect among the different Cu species. 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These catalysts are explored in the Rochow reaction using silicon powder and methyl chloride (MeCl) as reactants to produce dimethyldichlorosilane (M2), which is the most important organosilane monomer in the industry. The samples were characterized by X-ray diffraction, temperature-programmed reduction, thermogravimetric analysis, oxidimetry analysis, particle size analysis, transmission electron microscopy, and scanning electron microscopy. Compared to the metallic Cu powder and Cu flakes, the controllably oxidized Cu flakes containing Cu, Cu sub(2)O, and CuO species show much higher M2 selectivity and silicon conversion in the Rochow reaction. The enhanced catalytic performance may stem from the larger interfacial contact among the gas MeCl, solid Si particles, and solid Cu-based catalyst flakes, as well as the synergistic effect among the different Cu species. The work would be helpful to the development of novel Cu-based catalysts for organosilane synthesis.</abstract><doi>10.1039/c3ra46970k</doi><tpages>8</tpages></addata></record>
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source	Royal Society Of Chemistry Journals 2008-
subjects	Catalysis CATALYSTS Copper COPPER OXIDE CUPRIC OXIDE Flakes OXIDATION PARTICLE SIZE AND SHAPE Reduction Scanning electron microscopy Silicon Thermogravimetric analysis
title	Controllably oxidized copper flakes as multicomponent copper-based catalysts for the Rochow reaction
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