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143 related items for PubMed ID: 38784427

  • 1. Cu/CeO2 catalysts for reverse water gas shift reactions: the effect of the preparation method.
    Wang J, Wang C, Feng Y, Li F, Su W, Fang Y, Zhao B.
    RSC Adv; 2024 May 22; 14(24):16736-16746. PubMed ID: 38784427
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  • 2. Cu/CeO2 Catalyst for Water-Gas Shift Reaction: Effect of CeO2 Pretreatment.
    Chen C, Zhan Y, Zhou J, Li D, Zhang Y, Lin X, Jiang L, Zheng Q.
    Chemphyschem; 2018 Jun 19; 19(12):1448-1455. PubMed ID: 29539184
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  • 3. [Study on CuO-CeO2 catalysts doped with alkali and alkaline earth metal oxides by in-situ DRIFTS].
    Zou HB, Chen SZ, Wang QY, Liu ZL, Lin WM.
    Guang Pu Xue Yu Guang Pu Fen Xi; 2010 Mar 19; 30(3):672-6. PubMed ID: 20496684
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  • 8. In situ studies of the active sites for the water gas shift reaction over Cu-CeO2 catalysts: complex interaction between metallic copper and oxygen vacancies of ceria.
    Wang X, Rodriguez JA, Hanson JC, Gamarra D, Martínez-Arias A, Fernández-García M.
    J Phys Chem B; 2006 Jan 12; 110(1):428-34. PubMed ID: 16471552
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  • 10. Flame Synthesis of Cu/ZnO-CeO2 Catalysts: Synergistic Metal-Support Interactions Promote CH3OH Selectivity in CO2 Hydrogenation.
    Zhu J, Ciolca D, Liu L, Parastaev A, Kosinov N, Hensen EJM.
    ACS Catal; 2021 Apr 16; 11(8):4880-4892. PubMed ID: 33898079
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  • 11. Decoupling the Chemical and Mechanical Strain Effect on Steering the CO2 Activation over CeO2-Based Oxides: An Experimental and DFT Approach.
    Polychronopoulou K, AlKhoori S, AlBedwawi S, Alareeqi S, Hussien AGS, Vasiliades MA, Efstathiou AM, Petallidou KC, Singh N, Anjum DH, Vega LF, Baker MA.
    ACS Appl Mater Interfaces; 2022 Jul 12; 14(29):33094-119. PubMed ID: 35820019
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  • 12. Transition-Metal-Doped CeO2 for the Reverse Water-Gas Shift Reaction: An Experimental and Theoretical Study on CO2 Adsorption and Surface Vacancy Effects.
    Yu Y, Xia W, Yu A, Simakov D, Ricardez-Sandoval LA.
    ChemSusChem; 2024 Jul 31; ():e202400681. PubMed ID: 39083347
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  • 13. Hydroxyls on CeO2 Support Promoting CuO/CeO2 Catalyst for Efficient CO Oxidation and NO Reduction by CO.
    Almousawi M, Xie S, Kim D, Ye K, Zhang X, Loukusa J, Ma L, Ehrlich SN, Tetard L, Liu F.
    Environ Sci Technol; 2024 Jan 09; 58(1):883-894. PubMed ID: 38134887
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  • 15. Effects of the Crystalline Properties of Hollow Ceria Nanostructures on a CuO-CeO2 Catalyst in CO Oxidation.
    Jang SJ, Lee H, Kim J, Kim NY, Choi DS, Joo JB.
    Materials (Basel); 2022 May 28; 15(11):. PubMed ID: 35683157
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  • 16. Reverse water gas shift reaction over a Cu/ZnO catalyst supported on regenerated spent bleaching earth (RSBE) in a slurry reactor: the effect of the Cu/Zn ratio on the catalytic activity.
    Phey Phey ML, Tuan Abdullah TA, Md Ali UF, Mohamud MY, Ikram M, Nabgan W.
    RSC Adv; 2023 Jan 18; 13(5):3039-3055. PubMed ID: 36756434
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  • 17. CuO decorated vacancy-rich CeO2 nanopencils for highly efficient catalytic NO reduction by CO at low temperature.
    Wang F, Yu Z, Zhai S, Li Y, Xu Y, Ye Y, Wei X, Xu J, Xue B.
    Environ Sci Pollut Res Int; 2023 Mar 18; 30(11):31895-31904. PubMed ID: 36459322
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  • 18. Morphology effects on surface chemical properties and lattice defects of Cu/CeO2 catalysts applied for low-temperature CO oxidation.
    Dong F, Meng Y, Han W, Zhao H, Tang Z.
    Sci Rep; 2019 Aug 19; 9(1):12056. PubMed ID: 31427661
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