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Journal Abstract Search

451 related items for PubMed ID: 19088963

  • 1. Dynamic electrochemical investigations of hydrogen oxidation and production by enzymes and implications for future technology.
    Armstrong FA, Belsey NA, Cracknell JA, Goldet G, Parkin A, Reisner E, Vincent KA, Wait AF.
    Chem Soc Rev; 2009 Jan; 38(1):36-51. PubMed ID: 19088963
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  • 2. Hydrogen cycling by enzymes: electrocatalysis and implications for future energy technology.
    Vincent KA, Cracknell JA, Parkin A, Armstrong FA.
    Dalton Trans; 2005 Nov 07; (21):3397-403. PubMed ID: 16234917
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  • 4. Spectroelectrochemical study of the [NiFe] hydrogenase from Desulfovibrio vulgaris Miyazaki F in solution and immobilized on biocompatible gold surfaces.
    Millo D, Pandelia ME, Utesch T, Wisitruangsakul N, Mroginski MA, Lubitz W, Hildebrandt P, Zebger I.
    J Phys Chem B; 2009 Nov 19; 113(46):15344-51. PubMed ID: 19845323
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  • 5. Photo-induced H2 production by [NiFe]-hydrogenase from T. roseopersicina covalently linked to a Ru(II) photosensitizer.
    Zadvornyy OA, Lucon JE, Gerlach R, Zorin NA, Douglas T, Elgren TE, Peters JW.
    J Inorg Biochem; 2012 Jan 19; 106(1):151-5. PubMed ID: 22119807
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  • 6. Direct electrochemistry of an [FeFe]-hydrogenase on a TiO2 electrode.
    Morra S, Valetti F, Sadeghi SJ, King PW, Meyer T, Gilardi G.
    Chem Commun (Camb); 2011 Oct 14; 47(38):10566-8. PubMed ID: 21863186
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  • 7. Electrochemistry, AFM, and PM-IRRA spectroscopy of immobilized hydrogenase: role of a hydrophobic helix in enzyme orientation for efficient H2 oxidation.
    Ciaccafava A, Infossi P, Ilbert M, Guiral M, Lecomte S, Giudici-Orticoni MT, Lojou E.
    Angew Chem Int Ed Engl; 2012 Jan 23; 51(4):953-6. PubMed ID: 22173906
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  • 8. The crystal structure of [Fe]-hydrogenase reveals the geometry of the active site.
    Shima S, Pilak O, Vogt S, Schick M, Stagni MS, Meyer-Klaucke W, Warkentin E, Thauer RK, Ermler U.
    Science; 2008 Jul 25; 321(5888):572-5. PubMed ID: 18653896
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  • 13. The [NiFe]-hydrogenase of the cyanobacterium Synechocystis sp. PCC 6803 works bidirectionally with a bias to H2 production.
    McIntosh CL, Germer F, Schulz R, Appel J, Jones AK.
    J Am Chem Soc; 2011 Jul 27; 133(29):11308-19. PubMed ID: 21675712
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  • 14. Hydrogenase cluster biosynthesis: organometallic chemistry nature's way.
    McGlynn SE, Mulder DW, Shepard EM, Broderick JB, Peters JW.
    Dalton Trans; 2009 Jun 14; (22):4274-85. PubMed ID: 19662302
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  • 15. [NiFe]-hydrogenases of Ralstonia eutropha H16: modular enzymes for oxygen-tolerant biological hydrogen oxidation.
    Burgdorf T, Lenz O, Buhrke T, van der Linden E, Jones AK, Albracht SP, Friedrich B.
    J Mol Microbiol Biotechnol; 2005 Jun 14; 10(2-4):181-96. PubMed ID: 16645314
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  • 16. Electrochemical potential-step investigations of the aerobic interconversions of [NiFe]-hydrogenase from Allochromatium vinosum: insights into the puzzling difference between unready and ready oxidized inactive states.
    Lamle SE, Albracht SP, Armstrong FA.
    J Am Chem Soc; 2004 Nov 17; 126(45):14899-909. PubMed ID: 15535717
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  • 17. Photoreduction of catalytic platinum particles using immobilized multilayers of Photosystem I.
    LeBlanc G, Chen G, Jennings GK, Cliffel DE.
    Langmuir; 2012 May 29; 28(21):7952-6. PubMed ID: 22577992
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  • 18. The structure of the active site H-cluster of [FeFe] hydrogenase from the green alga Chlamydomonas reinhardtii studied by X-ray absorption spectroscopy.
    Stripp S, Sanganas O, Happe T, Haumann M.
    Biochemistry; 2009 Jun 09; 48(22):5042-9. PubMed ID: 19397274
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  • 19. Anaerobic regulation of hydrogenase transcription in different bacteria.
    Kovács AT, Rákhely G, Balogh J, Maróti G, Fülöp A, Kovács KL.
    Biochem Soc Trans; 2005 Feb 09; 33(Pt 1):36-8. PubMed ID: 15667258
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  • 20. The roles of the first and second coordination spheres in the design of molecular catalysts for H2 production and oxidation.
    Rakowski DuBois M, DuBois DL.
    Chem Soc Rev; 2009 Jan 09; 38(1):62-72. PubMed ID: 19088965
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