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CO2 electrochemical catalytic reduction with a highly active cobalt phthalocyanine.

Nature communications (2019-08-11)
Min Wang, Kristian Torbensen, Danielle Salvatore, Shaoxuan Ren, Dorian Joulié, Fabienne Dumoulin, Daniela Mendoza, Benedikt Lassalle-Kaiser, Umit Işci, Curtis P Berlinguette, Marc Robert
RÉSUMÉ

Molecular catalysts that combine high product selectivity and high current density for CO2 electrochemical reduction to CO or other chemical feedstocks are urgently needed. While earth-abundant metal-based molecular electrocatalysts with high selectivity for CO2 to CO conversion are known, they are characterized by current densities that are significantly lower than those obtained with solid-state metal materials. Here, we report that a cobalt phthalocyanine bearing a trimethyl ammonium group appended to the phthalocyanine macrocycle is capable of reducing CO2 to CO in water with high activity over a broad pH range from 4 to 14. In a flow cell configuration operating in basic conditions, CO production occurs with excellent selectivity (ca. 95%), and good stability with a maximum partial current density of 165 mA cm-2 (at -0.92 V vs. RHE), matching the most active noble metal-based nanocatalysts. These results represent state-of-the-art performance for electrolytic carbon dioxide reduction by a molecular catalyst.