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Journal Abstract Search

209 related items for PubMed ID: 38549838

  • 1. The influence of Mg/Al molar ratio on the performance of CuMgAl-x catalysts for CO2 hydrogenation to methanol.
    Liu H, Huang W, Xu Z, Jia Y, Huang M, Liu X, Yang H, Li R, Wei Q, Zhou Y.
    Front Chem; 2024; 12():1361930. PubMed ID: 38549838
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  • 5. Synthesis of methanol over highly dispersed Cu-Fe based catalysts derived from layered double hydroxides.
    Tian J, Qian W, Zhang H, Ma H, Ying W.
    RSC Adv; 2023 May 02; 13(20):13902-13910. PubMed ID: 37181507
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  • 7. Highly Efficient Nanosized Mesoporous CuMgAl Ternary Oxide Catalyst for Nitro-Alcohol Synthesis: Ultrasound-Assisted Sustainable Green Perspective for the Henry Reaction.
    Mokhtar M, Alhashedi BFA, Kashmery HA, Ahmed NS, Saleh TS, Narasimharao K.
    ACS Omega; 2020 Mar 31; 5(12):6532-6544. PubMed ID: 32258889
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  • 8. Effect of glucose pretreatment on Cu-ZnO-Al2O3 catalyzed CO2 hydrogenation to methanol.
    Jiang X, Yang W, Song H, Ke J, Li P, Li R, Ma Q, Sun J, Zhao TS, Tsubaki N.
    RSC Adv; 2023 Jul 19; 13(32):22493-22502. PubMed ID: 37497091
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  • 9. Mechanism and catalytic performance for direct dimethyl ether synthesis by CO2 hydrogenation over CuZnZr/ferrierite hybrid catalyst.
    Sheng Q, Ye RP, Gong W, Shi X, Xu B, Argyle M, Adidharma H, Fan M.
    J Environ Sci (China); 2020 Jun 19; 92():106-117. PubMed ID: 32430113
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  • 10. 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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  • 11. 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 18; 10(6):221213. PubMed ID: 37325598
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  • 12. Water and Cu+ Synergy in Selective CO2 Hydrogenation to Methanol over Cu-MgO-Al2O3 Catalysts.
    Fernández-Villanueva E, Lustemberg PG, Zhao M, Soriano Rodriguez J, Concepción P, Ganduglia-Pirovano MV.
    J Am Chem Soc; 2024 Jan 24; 146(3):2024-2032. PubMed ID: 38206050
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  • 13. Highly Selective and Stable Cu Catalysts Based on Ni-Al Catalytic Systems for Bioethanol Upgrading to n-Butanol.
    Xiao Y, Zhan N, Li J, Tan Y, Ding Y.
    Molecules; 2023 Jul 27; 28(15):. PubMed ID: 37570654
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  • 14. Cu2In alloy-embedded ZrO2 catalysts for efficient CO2 hydrogenation to methanol: promotion of plasma modification.
    Song F, Gao J, Yang B, Cao Y, Liu H, Xu Q.
    Front Chem; 2023 Jul 27; 11():1187762. PubMed ID: 37288077
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  • 15. 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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  • 16. Efficient Ni-based catalysts for low-temperature reverse water-gas shift (RWGS) reaction.
    Deng L, Ai X, Xie F, Zhou G.
    Chem Asian J; 2021 Apr 19; 16(8):949-958. PubMed ID: 33646609
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  • 17. Theoretical study of the effects of surface Cu coordination environment on CO2 hydrogenation to CH3OH.
    Guan L, Gao Y, Li C, Wang H, Zhang W, Teng B, Wen X.
    J Colloid Interface Sci; 2024 Dec 19; 675():496-504. PubMed ID: 38986323
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  • 20. Hollow @CuMgAl double layered hydrotalcites and mixed oxides with tunable textural and structural properties, and thus enhanced NH3-NOx-SCR activity.
    Kondratowicz T, Horký O, Slang S, Dubnová L, Gajewska M, Chmielarz L, Čapek L.
    Nanoscale Adv; 2023 May 30; 5(11):3063-3074. PubMed ID: 37260483
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