Methanol,a versatile chemical,fuel additive and potential H2 carrier,has attracted great attention.Despite of the wide industrialization,improvement of Cu-based methanol-synthesis catalysts is highly anticipated.Accordingly,a series of Cu/ZnO/Al2O3 with designed precursor structures were prepared,and its structure-function relationship was investigated to make progress on this area.Results showed the catalyst derived from highly zinc-substituted malachite demonstrated the best catalytic performance in this work.It was found that the well-behaved catalyst possessed relatively high Cu specific surface area and exposed Cu concentration,and the well Cu/ZnO synergy.CuZn alloy was found by In-situ XRD tests,and its effect on the catalyst's thermostability was discussed.Fractional precipitation,which facilitated the Cu2+sub-stitution by Zn2+in malachite lattice,could be an efficient preparation method of the Cu/ZnO/Al2O3 catalyst.

Fan Zhang;Xiaoying Xu;Zhengpu Qiu;Bo Feng;Yuan Liu;Aihua Xing;Maohong Fan

National Institute of Clean-and-Low-Carbon Energy,Beijing,102211,China;Departments of Chemical and Petroleum Engineering,University of Wyoming,Laramie,WY 82071,USA

绿色能源与环境（英文）

[1]Fan Zhang;Xiaoying Xu;Zhengpu Qiu;Bo Feng;Yuan Liu;Aihua Xing;Maohong Fan-.Improved methanol synthesis performance of Cu/ZnO/Al203 catalyst by controlling its precursor structure)[J].绿色能源与环境（英文）,2022(04):772-781

Cu2+sub

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