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Anionic Surfactant-Tailored Interfacial Microenvironment for Boosting Electrochemical CO 2 Reduction.

Xin YuanWangxin GeYihua ZhuLei DongHongliang JiangChunzhong Li
Published in: ACS applied materials & interfaces (2024)
Both the catalyst and electrolyte deeply impact the performance of the carbon dioxide reduction reaction (CO 2 RR). It remains a challenge to design the electrolyte compositions for promoting the CO 2 RR. Here, typical anionic surfactants, dodecylphosphonic acid (DDPA) and its analogues, are employed as electrolyte additives to tune the catalysis interface where the CO 2 RR occurs. Surprisingly, the anionic surfactant-tailored interfacial microenvironment enables a set of typical commercial catalysts for the CO 2 RR to deliver a significantly enhanced selectivity of carbon products in both neutral and acidic electrolytes. Mechanistic studies disclose that the DDPA addition restructures the interfacial hydrogen-bond environment via increasing the weak H-bonded water, thus promoting the CO 2 protonation to CO. Specifically, in an H-type cell, the Faradaic efficiency of CO increases from 70 to 98% at -1.0 V versus the reversible hydrogen electrode. Furthermore, in a flow cell, the DDPA-containing electrolyte maintains over 90% FE CO from 50-400 mA cm -2 . Additionally, this electrolyte modulation strategy can be extended to acidic CO 2 RR with a pH of 1.5-3.5.
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