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Copper lattice tension boosts full-cell CO electrolysis to multi-carbon olefins and oxygenates

Chem [2023]
Wenchao Ma, Shunji Xie, Biao Zhang, Xiaoyang He, Xi Liu, Bingbao Mei, Fanfei Sun, Zheng Jiang, Li Lin, Qinghong Zhang, Bin Ren, Gang Fu, Xile Hu, Ye Wang
ABSTRACT

Electrocatalytic upgrading of CO to value-added multi-carbon (C 2+ ) compounds is a promising approach to efficient carbon utilization. However, current full-cell systems have low energy conversion efficiencies under practical conditions due to the requirement of high cell voltages for an industrially relevant current density. Here, we present a lattice tension strategy to enhance CO chemisorption and carbon–carbon coupling on copper catalysts at high CO coverages, which usually cause excessive dipole-dipole repulsion and are detrimental to C–C coupling. A current density of 1.0 A cm −2 with 84% Faradaic efficiency of C 2+ compounds is achieved at 2.4 V on a spindle-shaped copper with 4% lattice tension. The C 2+ products are formed with nearly 100% selectivity and in a 41% single-pass yield (on a molar carbon basis). This work demonstrates a great potential of electrocatalytic CO reduction for the practical synthesis of high-value chemicals from CO 2 and abundant carbon resources.

MATERIALS

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