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Ambient-pressure hydrogenation of CO2 into long-chain olefins

Zhongling Li, Wenlong Wu, Menglin Wang, Yanan Wang, Xinlong Ma, Lei Luo, Yue Chen, Kaiyuan Fan, Yang Pan, Hongliang Li, Jie Zeng

2022Nature Communications182 citationsDOIOpen Access PDF

Abstract

Abstract The conversion of CO 2 by renewable power-generated hydrogen is a promising approach to a sustainable production of long-chain olefins (C 4+ = ) which are currently produced from petroleum resources. The decentralized small-scale electrolysis for hydrogen generation requires the operation of CO 2 hydrogenation in ambient-pressure units to match the manufacturing scales and flexible on-demand production. Herein, we report a Cu-Fe catalyst which is operated under ambient pressure with comparable C 4+ = selectivity (66.9%) to that of the state-of-the-art catalysts (66.8%) optimized under high pressure (35 bar). The catalyst is composed of copper, iron oxides, and iron carbides. Iron oxides enable reverse-water-gas-shift to produce CO. The synergy of carbide path over iron carbides and CO insertion path over interfacial sites between copper and iron carbides leads to efficient C-C coupling into C 4+ = . This work contributes to the development of small-scale low-pressure devices for CO 2 hydrogenation compatible with sustainable hydrogen production.

Topics & Concepts

CarbideMaterials scienceCatalysisHydrogenAmbient pressureWater-gas shift reactionRenewable energyCopperChemical engineeringHydrogen productionNickelMetallurgyChemistryOrganic chemistryThermodynamicsEngineeringElectrical engineeringPhysicsCatalysts for Methane ReformingCO2 Reduction Techniques and CatalystsCatalytic Processes in Materials Science
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