Issue 28, 2024

Potassium-modified calcium-ferrate-catalyzed hydrogenation of carbon dioxide to produce light olefins

Abstract

Hydrogenating CO2 to produce light olefins is a highly promising route for olefin synthesis. However, the premise of achieving a high yield is to develop a catalyst with a high conversion rate, selectivity, and stability. This paper reports a Ca2−xKxFe2O5 catalyst with an CO2 conversion of up to 46%, a light olefin selectivity of 34.59%, and an olefin-alkane molar ratio of 8.31. Ca addition increased the oxygen vacancy concentration and strong basic sites of the catalyst, resulting in improved HCOO* intermediate formation, better CO selectivity, and higher CO2 conversion rates. Meanwhile, the addition of K further enhanced the rate of CO2 conversion while also improving the selectivity of light olefins by promoting C–C coupling. Furthermore, the Ca1.0K1.0Fe2O5 catalyst demonstrated no notable deactivation over a period of 72 h, indicating the strong industrial potential of this catalyst.

Graphical abstract: Potassium-modified calcium-ferrate-catalyzed hydrogenation of carbon dioxide to produce light olefins

Supplementary files

Article information

Article type
Paper
Submitted
05 Apr 2024
Accepted
26 Jun 2024
First published
01 Jul 2024

New J. Chem., 2024,48, 12616-12625

Potassium-modified calcium-ferrate-catalyzed hydrogenation of carbon dioxide to produce light olefins

A. Cui, M. Wu, T. Guo, X. Sun, Y. Chen and Q. Guo, New J. Chem., 2024, 48, 12616 DOI: 10.1039/D4NJ01579G

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