过电位
催化作用
碳纳米管
法拉第效率
贵金属
材料科学
选择性
化学工程
碳纤维
金属
纳米材料
纳米技术
化学
电化学
电极
复合材料
物理化学
有机化学
复合数
冶金
工程类
作者
Min Wang,Lingjing Chen,Tai‐Chu Lau,Marc Robert
标识
DOI:10.1002/anie.201802792
摘要
Associating a metal-based catalyst to a carbon-based nanomaterial is a promising approach for the production of solar fuels from CO2 . Upon appending a CoII quaterpyridine complex [Co(qpy)]2+ at the surface of multi-walled carbon nanotubes, CO2 conversion into CO was realized in water at pH 7.3 with 100 % catalytic selectivity and 100 % Faradaic efficiency, at low catalyst loading and reduced overpotential. A current density of 0.94 mA cm-2 was reached at -0.35 V vs. RHE (240 mV overpotential), and 9.3 mA cm-2 could be sustained for hours at only 340 mV overpotential with excellent catalyst stability (89 095 catalytic cycles in 4.5 h), while 19.9 mA cm-2 was met at 440 mV overpotential. Such a hybrid material combines the high selectivity of a homogeneous molecular catalyst to the robustness of a heterogeneous material. Catalytic performances compare well with those of noble-metal-based nano-electrocatalysts and atomically dispersed metal atoms in carbon matrices.
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