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Journal Abstract Search

442 related items for PubMed ID: 30858380

  • 1. Exploring the ternary interactions in Cu-ZnO-ZrO2 catalysts for efficient CO2 hydrogenation to methanol.
    Wang Y, Kattel S, Gao W, Li K, Liu P, Chen JG, Wang H.
    Nat Commun; 2019 Mar 11; 10(1):1166. PubMed ID: 30858380
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  • 3. Inverse ZrO2/Cu as a highly efficient methanol synthesis catalyst from CO2 hydrogenation.
    Wu C, Lin L, Liu J, Zhang J, Zhang F, Zhou T, Rui N, Yao S, Deng Y, Yang F, Xu W, Luo J, Zhao Y, Yan B, Wen XD, Rodriguez JA, Ma D.
    Nat Commun; 2020 Nov 13; 11(1):5767. PubMed ID: 33188189
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  • 4. Optimizing Binding Energies of Key Intermediates for CO2 Hydrogenation to Methanol over Oxide-Supported Copper.
    Kattel S, Yan B, Yang Y, Chen JG, Liu P.
    J Am Chem Soc; 2016 Sep 28; 138(38):12440-50. PubMed ID: 27571313
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  • 5. Cu Facet-Dependent Elementary Surface Reaction Kinetics of CO2 Hydrogenation to Methanol Catalyzed by ZrO2/Cu Inverse Catalysts.
    Xiong W, Ding J, Wang D, Huang W.
    J Phys Chem Lett; 2023 Aug 17; 14(32):7229-7234. PubMed ID: 37552579
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  • 6. Dual active sites over Cu-ZnO-ZrO2 catalysts for carbon dioxide hydrogenation to methanol.
    Sun X, Jin Y, Cheng Z, Lan G, Wang X, Qiu Y, Wang Y, Liu H, Li Y.
    J Environ Sci (China); 2023 Sep 17; 131():162-172. PubMed ID: 37225377
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  • 7. Copper-doped ZnO-ZrO2 solid solution catalysts for promoting methanol synthesis from CO2 hydrogenation.
    Song F, Cheng W, Yu Y, Cao Y, Xu Q.
    R Soc Open Sci; 2023 Jun 17; 10(6):221213. PubMed ID: 37325598
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  • 10. Efficient Role of Nanosheet-Like Pr2O3 Induced Surface-Interface Synergistic Structures over Cu-Based Catalysts for Enhanced Methanol Production from CO2 Hydrogenation.
    Zhang G, Liu M, Fan G, Zheng L, Li F.
    ACS Appl Mater Interfaces; 2022 Jan 19; 14(2):2768-2781. PubMed ID: 34994552
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  • 13. Enhanced Methanol Synthesis from CO2 Hydrogenation Achieved by Tuning the Cu-ZnO Interaction in ZnO/Cu2O Nanocube Catalysts Supported on ZrO2 and SiO2.
    Kordus D, Widrinna S, Timoshenko J, Lopez Luna M, Rettenmaier C, Chee SW, Ortega E, Karslioglu O, Kühl S, Roldan Cuenya B.
    J Am Chem Soc; 2024 Mar 27; 146(12):8677-8687. PubMed ID: 38472104
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  • 14. Effect of the components' interface on the synthesis of methanol over Cu/ZnO from CO2/H2: a microkinetic analysis based on DFT + U calculations.
    Tang QL, Zou WT, Huang RK, Wang Q, Duan XX.
    Phys Chem Chem Phys; 2015 Mar 21; 17(11):7317-33. PubMed ID: 25697118
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  • 16. Cylindrical shaped ZnO combined Cu catalysts for the hydrogenation of CO2 to methanol.
    Lei H, Zheng R, Liu Y, Gao J, Chen X, Feng X.
    RSC Adv; 2019 Apr 30; 9(24):13696-13704. PubMed ID: 35519552
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  • 19. A quasi-stable molybdenum sub-oxide with abundant oxygen vacancies that promotes CO2 hydrogenation to methanol.
    Kuwahara Y, Mihogi T, Hamahara K, Kusu K, Kobayashi H, Yamashita H.
    Chem Sci; 2021 Jul 28; 12(29):9902-9915. PubMed ID: 34349963
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  • 20. Active sites for CO2 hydrogenation to methanol on Cu/ZnO catalysts.
    Kattel S, Ramírez PJ, Chen JG, Rodriguez JA, Liu P.
    Science; 2017 Mar 24; 355(6331):1296-1299. PubMed ID: 28336665
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