CO2 hydrogenation to high-value products via heterogeneous catalysis

Runping Ye; Jie Ding; Weibo Gong; Morris D. Argyle; Qin Zhong; Yujun Wang; Christopher K. Russell; Zhenghe Xu; Armistead G. Russell; Qiaohong Li; Maohong Fan; Yuan‐Gen Yao

doi:10.1038/s41467-019-13638-9

CO2 hydrogenation to high-value products via heterogeneous catalysis

Runping Ye(University of Wyoming), Jie Ding(University of Wyoming), Weibo Gong(University of Wyoming), Morris D. Argyle(Brigham Young University), Qin Zhong(Nanjing University of Science and Technology), Yujun Wang(State Key Laboratory of Chemical Engineering), Christopher K. Russell(University of Wyoming), Zhenghe Xu(Southern University of Science and Technology), Armistead G. Russell(Georgia Institute of Technology), Qiaohong Li(Chinese Academy of Sciences), Maohong Fan(University of Wyoming), Yuan‐Gen Yao(Chinese Academy of Sciences)

Nature Communications

December 13, 2019

10.1038/s41467-019-13638-9

Cited by 1,108Open Access

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Abstract

Recently, carbon dioxide capture and conversion, along with hydrogen from renewable resources, provide an alternative approach to synthesis of useful fuels and chemicals. People are increasingly interested in developing innovative carbon dioxide hydrogenation catalysts, and the pace of progress in this area is accelerating. Accordingly, this perspective presents current state of the art and outlook in synthesis of light olefins, dimethyl ether, liquid fuels, and alcohols through two leading hydrogenation mechanisms: methanol reaction and Fischer-Tropsch based carbon dioxide hydrogenation. The future research directions for developing new heterogeneous catalysts with transformational technologies, including 3D printing and artificial intelligence, are provided.

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