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Electrochemical CO2 reduction to C2+ species: Heterogeneous electrocatalysts, reaction pathways, and optimization strategies

2018; Elsevier BV; Volume: 10; Linguagem: Inglês

10.1016/j.mtener.2018.10.003

2468-6069

Qun Fan, Mingli Zhang, Mingwen Jia, Shizhen Liu, Jieshan Qiu, Zhenyu Sun,

Ammonia Synthesis and Nitrogen Reduction

Electrochemical CO2 reduction to fuels and chemicals using renewable electricity offers a green and efficient tool/strategy to mitigate global warming and energy supply problems. Relative to C1 products, C2+ hydrocarbons and oxygenates containing two or more carbon atoms have higher energy densities. Also, many multi-carbon products are chemical feedstocks in high demand. However, CC bond formation competes with the HH and CH bond formation. HH and CH bonds have stronger bond energies and thus require lower energies for their formation than CC bonds. Therefore, to increase C2+ fuel selectivity and yield requires the design of advanced tailor-made electrocatalysts and electrolytes as well as optimization of electrochemical cells. An overarching aim of this article is to comprehensively summarize recent advances on the electrocatalytic conversion of CO2 to C2+ hydrocarbons (oxygenates) over various materials. The fundamentals of CO2 catalysis and possible C2+ reaction pathways are provided. We highlight strategies available for improving C2+ compound production.