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Journal Abstract Search

256 related items for PubMed ID: 25504469

  • 1. Wiring laccase on covalently modified graphene: carbon nanotube assemblies for the direct bio-electrocatalytic reduction of oxygen.
    Lalaoui N, Le Goff A, Holzinger M, Mermoux M, Cosnier S.
    Chemistry; 2015 Feb 16; 21(8):3198-201. PubMed ID: 25504469
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  • 4. Hybrid biobattery based on arylated carbon nanotubes and laccase.
    Stolarczyk K, Sepelowska M, Lyp D, Zelechowska K, Biernat JF, Rogalski J, Farmer KD, Roberts KN, Bilewicz R.
    Bioelectrochemistry; 2012 Oct 16; 87():154-63. PubMed ID: 22078125
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  • 6. Three-dimensional graphene-carbon nanotube hybrid for high-performance enzymatic biofuel cells.
    Prasad KP, Chen Y, Chen P.
    ACS Appl Mater Interfaces; 2014 Mar 12; 6(5):3387-93. PubMed ID: 24533856
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  • 7. Efficiency of Site-Specific Clicked Laccase-Carbon Nanotubes Biocathodes towards O2 Reduction.
    Gentil S, Rousselot-Pailley P, Sancho F, Robert V, Mekmouche Y, Guallar V, Tron T, Le Goff A.
    Chemistry; 2020 Apr 09; 26(21):4798-4804. PubMed ID: 31999372
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  • 9. High catalytic performance of laccase wired to naphthylated multiwall carbon nanotubes.
    Ben Tahar A, Żelechowska K, Biernat JF, Paluszkiewicz E, Cinquin P, Martin D, Zebda A.
    Biosens Bioelectron; 2020 Mar 01; 151():111961. PubMed ID: 31868607
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  • 10. Enzymatic electrodes nanostructured with functionalized carbon nanotubes for biofuel cell applications.
    Nazaruk E, Sadowska K, Biernat JF, Rogalski J, Ginalska G, Bilewicz R.
    Anal Bioanal Chem; 2010 Oct 01; 398(4):1651-60. PubMed ID: 20658283
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  • 12. Laccase electrode for direct electrocatalytic reduction of O2 to H2O with high-operational stability and resistance to chloride inhibition.
    Vaz-Dominguez C, Campuzano S, Rüdiger O, Pita M, Gorbacheva M, Shleev S, Fernandez VM, De Lacey AL.
    Biosens Bioelectron; 2008 Dec 01; 24(4):531-7. PubMed ID: 18585029
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  • 13. 5,5-Dithiobis(2-nitrobenzoic acid) pyrene derivative-carbon nanotube electrodes for NADH electrooxidation and oriented immobilization of multicopper oxidases for the development of glucose/O2 biofuel cells.
    Giroud F, Sawada K, Taya M, Cosnier S.
    Biosens Bioelectron; 2017 Jan 15; 87():957-963. PubMed ID: 27665518
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  • 14. Bioelectrocatalytic generation of directly readable code: harnessing cathodic current for long-term information relay.
    Strack G, Luckarift HR, Nichols R, Cozart K, Katz E, Johnson GR.
    Chem Commun (Camb); 2011 Jul 21; 47(27):7662-4. PubMed ID: 21660357
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  • 15. A pyrene-substituted tris(bipyridine)osmium(II) complex as a versatile redox probe for characterizing and functionalizing carbon nanotube- and graphene-based electrodes.
    Le Goff A, Reuillard B, Cosnier S.
    Langmuir; 2013 Jul 09; 29(27):8736-42. PubMed ID: 23767958
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  • 17. Bio-inspired multinuclear copper complexes covalently immobilized on reduced graphene oxide as efficient electrocatalysts for the oxygen reduction reaction.
    Xi YT, Wei PJ, Wang RC, Liu JG.
    Chem Commun (Camb); 2015 May 01; 51(35):7455-8. PubMed ID: 25825826
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  • 18. Derivatization of single-walled carbon nanotubes with redox mediator for biocatalytic oxygen electrodes.
    Sadowska K, Stolarczyk K, Biernat JF, Roberts KP, Rogalski J, Bilewicz R.
    Bioelectrochemistry; 2010 Nov 01; 80(1):73-80. PubMed ID: 20609634
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  • 19. Oxidation of laccase for improved cathode biofuel cell performances.
    Zheng M, Griveau S, Dupont-Gillain C, Genet MJ, Jolivalt C.
    Bioelectrochemistry; 2015 Dec 01; 106(Pt A):77-87. PubMed ID: 26166133
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  • 20. Electrochemical catalysis and thermal stability characterization of laccase-carbon nanotubes-ionic liquid nanocomposite modified graphite electrode.
    Liu Y, Huang L, Dong S.
    Biosens Bioelectron; 2007 Aug 30; 23(1):35-41. PubMed ID: 17459687
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