Grain-Boundary-Enriched Copper Electrocatalysts for Efficient Carbon Dioxide Reduction to Multi-Carbon Products
BinPeng, Xin-YuanChen, Ya-XinXie, RuiShu, Li-JuanShi, Hui-JuanGuo, Fan-PengCheng, QunYi
10.1021/acs.iecr.5c00765
Abstract: The electrocatalytic carbon dioxide reduction reaction (CO2RR) provides a promising strategy for converting CO2 into valuable chemicals, with multicarbon (C2+) products being particularly attractive due to their diverse industrial applications. Grain boundaries in Cu-based electrocatalysts have been demonstrated to improve the selectivity of the CO2RR toward C2+ products. However, methods for creating grain boundaries in Cu remain limited. Herein, a grain-boundary-enriched Cu electrocatalyst (GB-Cu) was successfully synthesized via in situ electrodeposition, in which sodium pyridine-2-carboxylate is introduced as an additive to control the deposition kinetics and generate new active species through the presence of GB. In situ attenuated total reflectance Fourier transform infrared (ATR-FTIR) spectroscopy reveals that the abundance of grain boundaries enhances CO adsorption during C-C coupling. This leads to a significantly higher Faradaic efficiency (FE) of 57.7% for C2+ products, with a notable 43% for C2H4, in the H-cell. Furthermore, GB-Cu demonstrated high C2+ selectivity over a wide range of current densities (100-250 mA cm-2) in a flow cell, achieving the highest C2+ FE of 50.03% at 100 mA cm-2.
电催化二氧化碳还原反应(CO2RR)为将CO2转化为高附加值化学品提供了一种具有前景的策略,其中多碳(C2+)产物因其多样化的工业应用而尤为受到关注。研究表明,铜基电催化剂中的晶界能够提升CO2RR生成C2+产物的选择性。然而,目前在铜中构建晶界的方法仍较为有限。本文通过原位电沉积法成功合成了一种富含晶界的铜电催化剂(GB-Cu),并在电沉积过程中引入吡啶-2-羧酸钠作为添加剂,以调控沉积动力学并促使晶界处新活性物种的生成。原位衰减全反射傅里叶变换红外光谱(ATR-FTIR)表明,晶界的丰富增强了C–C耦合过程中的CO吸附能力。这使得在H型电解池中C2+产物的法拉第效率(FE)显著提高,达到57.7%,其中乙烯(C2H4)的法拉第效率高达43%。此外,在流动电解池中,GB-Cu在较宽的电流密度范围(100–250 mA cm⁻²)内均表现出优异的C2+选择性,在100 mA cm⁻²下实现了最高的C2+法拉第效率50.03%。
