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Journal Abstract Search

152 related items for PubMed ID: 28960487

  • 1. Effect of the ortho-Hydroxyl Groups on a Bipyridine Ligand of Iridium Complexes for the High-Pressure Gas Generation from the Catalytic Decomposition of Formic Acid.
    Iguchi M, Zhong H, Himeda Y, Kawanami H.
    Chemistry; 2017 Dec 14; 23(70):17788-17793. PubMed ID: 28960487
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  • 2. Ligand Effect on the Stability of Water-Soluble Iridium Catalysts for High-Pressure Hydrogen Gas Production by Dehydrogenation of Formic Acid.
    Iguchi M, Onishi N, Himeda Y, Kawanami H.
    Chemphyschem; 2019 May 16; 20(10):1296-1300. PubMed ID: 30884093
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  • 3. Ligand Design for Catalytic Dehydrogenation of Formic Acid to Produce High-pressure Hydrogen Gas under Base-free Conditions.
    Kawanami H, Iguchi M, Himeda Y.
    Inorg Chem; 2020 Apr 06; 59(7):4191-4199. PubMed ID: 32064868
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  • 9. Unprecedentedly high formic acid dehydrogenation activity on an iridium complex with an N,N'-diimine ligand in water.
    Wang Z, Lu SM, Li J, Wang J, Li C.
    Chemistry; 2015 Sep 01; 21(36):12592-5. PubMed ID: 26202172
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  • 17. Interconversion between formic acid and H(2)/CO(2) using rhodium and ruthenium catalysts for CO(2) fixation and H(2) storage.
    Himeda Y, Miyazawa S, Hirose T.
    ChemSusChem; 2011 Apr 18; 4(4):487-93. PubMed ID: 21271682
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  • 19. Theoretical study on the mechanism of aqueous synthesis of formic acid catalyzed by [Ru3+]-EDTA complex.
    Chen ZN, Chan KY, Pulleri JK, Kong J, Hu H.
    Inorg Chem; 2015 Feb 16; 54(4):1314-24. PubMed ID: 25646570
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  • 20. Base-free production of H2 by dehydrogenation of formic acid using an iridium-bisMETAMORPhos complex.
    Oldenhof S, de Bruin B, Lutz M, Siegler MA, Patureau FW, van der Vlugt JI, Reek JN.
    Chemistry; 2013 Aug 26; 19(35):11507-11. PubMed ID: 23873845
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