Upgrading CO2 to sustainable aromatics via perovskite-mediated tandem catalysis

Author:

Tian Guo,Li Zhengwen,Zhang ChenxiORCID,Liu Xinyan,Fan XiaoyuORCID,Shen KuiORCID,Meng HaibinORCID,Wang Ning,Xiong HaoORCID,Zhao Mingyu,Liang Xiaoyu,Luo Liqiang,Zhang Lan,Yan BinhangORCID,Chen XiaoORCID,Peng Hong-JieORCID,Wei FeiORCID

Abstract

AbstractThe directional transformation of carbon dioxide (CO2) with renewable hydrogen into specific carbon-heavy products (C6+) of high value presents a sustainable route for net-zero chemical manufacture. However, it is still challenging to simultaneously achieve high activity and selectivity due to the unbalanced CO2 hydrogenation and C–C coupling rates on complementary active sites in a bifunctional catalyst, thus causing unexpected secondary reaction. Here we report LaFeO3 perovskite-mediated directional tandem conversion of CO2 towards heavy aromatics with high CO2 conversion (> 60%), exceptional aromatics selectivity among hydrocarbons (> 85%), and no obvious deactivation for 1000 hours. This is enabled by disentangling the CO2 hydrogenation domain from the C-C coupling domain in the tandem system for Iron-based catalyst. Unlike other active Fe oxides showing wide hydrocarbon product distribution due to carbide formation, LaFeO3 by design is endowed with superior resistance to carburization, therefore inhibiting uncontrolled C–C coupling on oxide and isolating aromatics formation in the zeolite. In-situ spectroscopic evidence and theoretical calculations reveal an oxygenate-rich surface chemistry of LaFeO3, that easily escape from the oxide surface for further precise C–C coupling inside zeolites, thus steering CO2-HCOOH/H2CO-Aromatics reaction pathway to enable a high yield of aromatics.

Funder

the National Key Research and Development Program of China

Publisher

Springer Science and Business Media LLC

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