氧合物
催化作用
电合成
产量(工程)
化学工程
化学
材料科学
电化学
有机化学
电极
工程类
物理化学
冶金
作者
Nannan Meng,Zhitan Wu,Yanmei Huang,Jie Zhang,Maoxin Chen,Haibin Ma,Hongjiao Li,Shibo Xi,Ming Lin,Wen‐Ya Wu,Shuhe Han,Yifu Yu,Quan‐Hong Yang,Bin Zhang,Kian Ping Loh
标识
DOI:10.1038/s41467-024-48083-w
摘要
Abstract As a sustainable alternative to fossil fuel-based manufacture of bulk oxygenates, electrochemical synthesis using CO and H 2 O as raw materials at ambient conditions offers immense appeal. However, the upscaling of the electrosynthesis of oxygenates encounters kinetic bottlenecks arising from the competing hydrogen evolution reaction with the selective production of ethylene. Herein, a catalytic relay system that can perform in tandem CO capture, activation, intermediate transfer and enrichment on a Cu-Ag composite catalyst is used for attaining high yield CO-to-oxygenates electrosynthesis at high current densities. The composite catalyst Cu/30Ag (molar ratio of Cu to Ag is 7:3) enables high efficiency CO-to-oxygenates conversion, attaining a maximum partial current density for oxygenates of 800 mA cm −2 at an applied current density of 1200 mA cm −2 , and with 67 % selectivity. The ability to finely control the production of ethylene and oxygenates highlights the principle of efficient catalyst design based on the relay mechanism.
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