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Journal Abstract Search

213 related items for PubMed ID: 33715756

  • 21. The Influence of Carbon Nature on the Catalytic Performance of Ru/C in Levulinic Acid Hydrogenation with Internal Hydrogen Source.
    Jędrzejczyk M, Soszka E, Goscianska J, Kozanecki M, Grams J, Ruppert AM.
    Molecules; 2020 Nov 17; 25(22):. PubMed ID: 33212838
    [Abstract] [Full Text] [Related]

  • 22. Acid-functionalized mesoporous carbon: an efficient support for ruthenium-catalyzed γ-valerolactone production.
    Villa A, Schiavoni M, Chan-Thaw CE, Fulvio PF, Mayes RT, Dai S, More KL, Veith GM, Prati L.
    ChemSusChem; 2015 Aug 10; 8(15):2520-8. PubMed ID: 26089180
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  • 24. Preparation of Ru/Graphene using Glucose as Carbon Source and Hydrogenation of Levulinic Acid to γ-Valerolactone.
    Wu L, Song J, Zhou B, Wu T, Jiang T, Han B.
    Chem Asian J; 2016 Oct 06; 11(19):2792-2796. PubMed ID: 27305341
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  • 25. An Efficient and Practical System for the Synthesis of N,N-Dimethylformamide by CO2 Hydrogenation using a Heterogeneous Ru Catalyst: From Batch to Continuous Flow.
    Gunasekar GH, Padmanaban S, Park K, Jung KD, Yoon S.
    ChemSusChem; 2020 Apr 07; 13(7):1735-1739. PubMed ID: 31970875
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  • 26. Aqueous Hydrogenation of Levulinic Acid to 1,4-Pentanediol over Mo-Modified Ru/Activated Carbon Catalyst.
    Cui J, Tan J, Zhu Y, Cheng F.
    ChemSusChem; 2018 Apr 25; 11(8):1316-1320. PubMed ID: 29460443
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  • 27. Tandem hydroformylation/hydrogenation of alkenes to normal alcohols using Rh/Ru dual catalyst or Ru single component catalyst.
    Takahashi K, Yamashita M, Nozaki K.
    J Am Chem Soc; 2012 Nov 14; 134(45):18746-57. PubMed ID: 23116366
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  • 28. Direct conversion of cellulose into sorbitol catalyzed by a bifunctional catalyst.
    Li Z, Liu Y, Liu C, Wu S, Wei W.
    Bioresour Technol; 2019 Feb 14; 274():190-197. PubMed ID: 30504102
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  • 30. One-pot synthesis of sorbitol via hydrolysis-hydrogenation of cellulose in the presence of Ru-containing composites.
    Gromov NV, Medvedeva TB, Rodikova YA, Timofeeva MN, Panchenko VN, Taran OP, Kozhevnikov IV, Parmon VN.
    Bioresour Technol; 2021 Jan 14; 319():124122. PubMed ID: 32971329
    [Abstract] [Full Text] [Related]

  • 31. Ruthenium nanoparticles on nano-level-controlled carbon supports as highly effective catalysts for arene hydrogenation.
    Takasaki M, Motoyama Y, Higashi K, Yoon SH, Mochida I, Nagashima H.
    Chem Asian J; 2007 Dec 03; 2(12):1524-33. PubMed ID: 17973283
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  • 33. Ru@hyperbranched Polymer for Hydrogenation of Levulinic Acid to Gamma-Valerolactone: The Role of the Catalyst Support.
    Sorokina SA, Mikhailov SP, Kuchkina NV, Bykov AV, Vasiliev AL, Ezernitskaya MG, Golovin AL, Nikoshvili LZ, Sulman MG, Shifrina ZB.
    Int J Mol Sci; 2022 Jan 12; 23(2):. PubMed ID: 35054984
    [Abstract] [Full Text] [Related]

  • 34. Efficient conversion of d-glucose into d-sorbitol over MCM-41 supported Ru catalyst prepared by a formaldehyde reduction process.
    Zhang J, Lin L, Zhang J, Shi J.
    Carbohydr Res; 2011 Aug 16; 346(11):1327-32. PubMed ID: 21601181
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  • 35. Hydrogenation of Lactic Acid to 1,2-Propanediol over Ru-Based Catalysts.
    Liu K, Huang X, Pidko EA, Hensen EJM.
    ChemCatChem; 2018 Feb 21; 10(4):810-817. PubMed ID: 29541255
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  • 39. Active carbon-ceramic sphere as support of ruthenium catalysts for catalytic wet air oxidation (CWAO) of resin effluent.
    Liu WM, Hu YQ, Tu ST.
    J Hazard Mater; 2010 Jul 15; 179(1-3):545-51. PubMed ID: 20362394
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