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首页> 外文期刊>Journal of the Brazilian Chemical Society >Carbon Nanotube-Supported Copper-Cobalt Catalyst for the Production of Higher Carbon Number Alcohols through Carbon Monoxide Hydrogenation
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Carbon Nanotube-Supported Copper-Cobalt Catalyst for the Production of Higher Carbon Number Alcohols through Carbon Monoxide Hydrogenation

机译:碳纳米管负载的铜钴催化剂,用于通过一氧化碳加氢生产更高碳数的醇

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摘要

A series of carbon nanotube (CNTs)-supported copper-cobalt catalysts were prepared and investigated in a slurry reactor for their ability to selectively convert syngas into higher carbon number alcohols. The 7.5Cu7.5Co/CNTs catalyst achieved superior selectivity towards the formation of ethanol (30.1%) and C2+ alcohols (57.7%), while the 10Co5Cu/CNTs catalyst exhibited the largest alcohol space-time yield (372.9 mg gcat -1 h-1). However, the pure Cu (15Cu/CNTs) catalyst displayed negligible activity. Cobalt reduction was enhanced in the presence of copper. In addition to the Cu0-Co0 center, Co0-Co2+ also presented dual active sites for higher alcohols synthesis, the Co2+ site could terminate carbon chain growth to produce alcohols. The ratio of Cu/Co considerably influences the metal particle properties-synergistically effecting the active species.
机译:制备了一系列碳纳米管(CNTs)负载的铜-钴催化剂,并在淤浆反应器中进行了研究,以研究其将合成气选择性转化为更高碳原子数的醇的能力。 7.5Cu7.5Co / CNTs催化剂对乙醇(30.1%)和C2 +醇(57.7%)的形成具有优异的选择性,而10Co5Cu / CNTs催化剂显示出最大的时空产率(372.9 mg gcat -1 h- 1)。但是,纯Cu(15Cu / CNTs)催化剂的活性可以忽略不计。在铜存在下,钴还原作用增强。除了Cu0-Co0中心外,Co0-Co2 +还具有用于高级醇合成的双重活性位点,Co2 +位点可以终止碳链增长以生产醇。 Cu / Co的比例显着影响金属颗粒的性能,协同影响活性物质。

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