通过在盐诱导的预相分离区域溶液中电沉积制备的高效锌电极。

Highly efficient zinc electrode prepared by electro-deposition in a salt-induced pre-phase separation region solution.

作者信息

Yin Yaoyu, Peng Yaguang, Zhou Meng, Zhang Pei, Cheng Yingying, Chen Peng, Xing Xueqing, Ma Xiaoxue, Zhu Qinggong, Sun Xiaofu, Qian Qingli, Kang Xinchen, Han Buxing

机构信息

Beijing National Laboratory for Molecular Sciences, CAS Laboratory of Colloid and Interface and Thermodynamics, CAS Research/Education Center for Excellence in Molecular Sciences, Center for Carbon Neutral Chemistry, Institute of Chemistry, Chinese Academy of Sciences, Beijing 100190, China; School of Chemistry, University of Chinese Academy of Sciences, Beijing 100049, China.

出版信息

Sci Bull (Beijing). 2023 Oct 30;68(20):2362-2369. doi: 10.1016/j.scib.2023.08.042. Epub 2023 Aug 23.

DOI:10.1016/j.scib.2023.08.042

PMID:37657973

Abstract

Efficient electrode design is crucial for the electrochemical reduction of CO to produce valuable chemicals. The solution used for the preparation of electrodes can affect their overall properties, which in turn determine the reaction efficiency. In this work, we report that transition metal salts could induce the change of two-phase ionic liquid/ethanol mixture into miscible one phase. Pre-phase separation region near the phase boundary of the ternary system was observed. Zinc nanoparticles were electro-deposited along the fibres of carbon paper (CP) substrate uniformly in the salt-induced pre-phase separation region solution. The as-prepared Zn(1)/CP electrode exhibits super-wettability to the electrolyte, rendering very high catalytic performance for CO electro-reduction, and the Faradaic efficiency towards CO is 97.6% with a current density of 340 mA cm, which is the best result to date in an H-type cell.

摘要

高效的电极设计对于将CO电化学还原以生产有价值的化学品至关重要。用于制备电极的溶液会影响其整体性能，而这反过来又决定了反应效率。在这项工作中，我们报道过渡金属盐可诱导两相离子液体/乙醇混合物转变为互溶的单相。观察到三元体系相界附近的预相分离区域。在盐诱导的预相分离区域溶液中，锌纳米颗粒沿着碳纸（CP）基底的纤维均匀电沉积。所制备的Zn(1)/CP电极对电解质表现出超润湿性，对CO电还原具有非常高的催化性能，在电流密度为340 mA cm时，对CO的法拉第效率为97.6%，这是迄今为止在H型电池中的最佳结果。

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通过在盐诱导的预相分离区域溶液中电沉积制备的高效锌电极。

Highly efficient zinc electrode prepared by electro-deposition in a salt-induced pre-phase separation region solution.

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