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Surface charge as activity descriptors for electrochemical CO 2 reduction to multi-carbon products on organic-functionalised Cu.

Carina Yi Jing LimMeltem YilmazJuan Manuel Arce-RamosAlbertus Denny HandokoWei Jie TehYuangang ZhengZi Hui Jonathan KhooMing LinMark IsaacsTeck Lip Dexter TamYang BaiChee Koon NgBoon Siang YeoGopinathan SankarIvan P ParkinKedar HippalgaonkarMichael B SullivanJia ZhangYee-Fun Lim
Published in: Nature communications (2023)
Intensive research in electrochemical CO 2 reduction reaction has resulted in the discovery of numerous high-performance catalysts selective to multi-carbon products, with most of these catalysts still being purely transition metal based. Herein, we present high and stable multi-carbon products selectivity of up to 76.6% across a wide potential range of 1 V on histidine-functionalised Cu. In-situ Raman and density functional theory calculations revealed alternative reaction pathways that involve direct interactions between adsorbed histidine and CO 2 reduction intermediates at more cathodic potentials. Strikingly, we found that the yield of multi-carbon products is closely correlated to the surface charge on the catalyst surface, quantified by a pulsed voltammetry-based technique which proved reliable even at very cathodic potentials. We ascribe the surface charge to the population density of adsorbed species on the catalyst surface, which may be exploited as a powerful tool to explain CO 2 reduction activity and as a proxy for future catalyst discovery, including organic-inorganic hybrids.
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