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Shuyu Liang
Researcher at Beijing Forestry University
Publications - 7
Citations - 771
Shuyu Liang is an academic researcher from Beijing Forestry University. The author has contributed to research in topics: Catalysis & Carbon. The author has an hindex of 5, co-authored 7 publications receiving 171 citations.
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Journal ArticleDOI
Industrial carbon dioxide capture and utilization: state of the art and future challenges
Wanlin Gao,Shuyu Liang,Rujie Wang,Qian Jiang,Yu Zhang,Qianwen Zheng,Bingqiao Xie,Cui Ying Toe,Xuancan Zhu,Junya Wang,Liang Huang,Yanshan Gao,Zheng Wang,Changbum Jo,Qiang Wang,Lidong Wang,Yuefeng Liu,Benoit Louis,Jason Scott,Anne-Cécile Roger,Rose Amal,Hong He,Sang-Eon Park +22 more
TL;DR: This work critically summarized and comprehensively reviewed the characteristics and performance of both liquid and solid CO2 adsorbents with possible schemes for the improvement of their CO2 capture ability and advances in CO2 utilization.
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Electrolytic cell design for electrochemical CO2 reduction
TL;DR: This review for the first time comprehensively review all types of electrolytic cells reported in literatures and compare their features, advantages and disadvantages for CO2 electro-reduction to provide researchers with a clearer understanding of reactor selection.
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Electrochemical Reduction of CO2 to CO over Transition Metal/N-Doped Carbon Catalysts: The Active Sites and Reaction Mechanism.
TL;DR: In this article, a visual performance comparison of transition metal/N-doped carbon (M-N-C) catalysts for CO2 reduction reaction (CO2 RR) reported over the recent years is given, which suggests that Ni and Fe-n-C catalysts are the most promising candidates for large-scale reduction of CO2 to produce CO.
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Revealing the Real Role of Nickel Decorated Nitrogen-Doped Carbon Catalysts for Electrochemical Reduction of CO2 to CO
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Electro-derived Cu-Cu2O nanocluster from LDH for stable and selective C2 hydrocarbons production from CO2 electrochemical reduction
TL;DR: In this paper, the authors investigated electro-derived composites from Cu-based layered double hydroxide (LDH) for CO2 electrochemical reduction, and they derived a highly negative reduction potential derived catalyst (HPR-LDH), which maintained longterm stability for the selective production of ethylene over methane, and a small amount of Cu2O was still observed on the catalyst surface after CO2 reduction reaction (CO2RR).