Issue 16, 2021

Photothermal CO2 hydrogenation to hydrocarbons over trimetallic Co–Cu–Mn catalysts

Abstract

Photocatalytic CO2 reduction is a highly vital process for converting CO2 into valuable chemicals. However, the reaction always proceeds less efficaciously at low temperature. A combination of optical and thermal conditions is one of the feasible approaches to achieve the reaction with high efficiency and has gained much attention recently. In the present work, we prepared several Co–Cu–Mn trimetallic catalysts via a simple co-precipitation method, which were used in catalyzing photothermal CO2 reduction to hydrocarbons. The metal composition and reduction temperature of the catalysts had important effects on their structural and photoelectrical characteristics and adsorption behaviors, further resulting in diverse catalytic performances. Among the prepared trimetallic catalysts, Co7Cu1Mn1Ox(200), with a Co/Cu/Mn molar ratio of 7/1/1 and reduced at 200 °C in H2 for 2 h, could produce CH4 with an activity of 14.5 mmol gcat−1 h−1 in 10% CO2/30% H2/60% N2, and CH4 and C2+ hydrocarbons with the activities of 15.9 and 7.5 mmol gcat−1 h−1 in 25% CO2/75% H2, respectively. The present strategy for constructing trimetallic oxide catalysts for the photothermal reaction not only provides a highly active catalyst for CO2 utilization, but also offers a potential possibility for reducing the high temperature of conventional thermal reactions.

Graphical abstract: Photothermal CO2 hydrogenation to hydrocarbons over trimetallic Co–Cu–Mn catalysts

Supplementary files

Article information

Article type
Paper
Submitted
04 Agd 2021
Accepted
22 Qas 2021
First published
23 Qas 2021

Green Chem., 2021,23, 5775-5785

Photothermal CO2 hydrogenation to hydrocarbons over trimetallic Co–Cu–Mn catalysts

Z. He, Z. Li, Z. Wang, K. Wang, Y. Sun, S. Wang, W. Wang, Y. Yang and Z. Liu, Green Chem., 2021, 23, 5775 DOI: 10.1039/D1GC01152A

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