107 resultats trouvés
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Molecular design of glucose biofuel cell electrodes,
, Molecular Technology: Energy Innovation, Weinheim, Germany, (2018)
3D-nanostructured scaffold electrodes based on single-walled carbon nanotubes and nanodiamonds for high performance biosensors.,
, Carbon N. Y., Volume 61, p.349–356, (2013)
Adamantane/$\beta$-cyclodextrin affinity biosensors based on single-walled carbon nanotubes.,
, Biosens. Bioelectron., Volume 24, Number 5, p.1128–1134, (2009)
Amperometric biosensors based on biotinylated single-walled carbon nanotubes.,
, J. Nanosci. Nanotechnol., Volume 9, Number 10, p.6042–6046, (2009)
Aqueous dispersions of SWCNTs using pyrrolic surfactants for the electro-generation of homogeneous nanotube composites. Application to the design of an amperometric biosensor.,
, J. Mater. Chem., Volume 18, Number 42, p.5129–5133, (2008)
Assembly and Stacking of Flow-through Enzymatic Bioelectrodes for High Power Glucose Fuel Cells.,
, ACS Appl. Mater. Interfaces, Volume 9, Number 28, p.23836–23842, (2017)
Beyond the hype surrounding biofuel cells: What's the future of enzymatic fuel cells?,
, Current Opinion in Electrochemistry, Volume 12, (2018)
Biotin-$\beta$-Cyclodextrin: A New Host-Guest System for the Immobilization of Biomolecules.,
, Langmuir, Volume 28, Number 34, p.12569–12574, (2012)
Buckypaper bioelectrodes: Emerging materials for implantable and wearable biofuel cells,
, Energy & Environmental Science, (2018)
Carbon nanotube-based flexible biocathode for enzymatic biofuel cells by spray coating,
, Journal of Power Sources, Volume 408, (2018)
Carbon nanotube/enzyme biofuel cells.,
, Electrochim. Acta, Volume 82, p.179–190, (2012)
Carbon science perspective in 2020: Current research and future challenges,
, Carbon, Volume 161, (2020)
Characterization of multi-walled carbon nanotube electrodes functionalized by electropolymerized tris(pyrrole-ether bipyridine) ruthenium (II).,
, Electrochim. Acta, Volume 56, Number 10, p.3633–3640, (2011)
Chemically reduced electrospun polyacrilonitrile-carbon nanotube nanofibers hydrogels as electrode material for bioelectrochemical applications.,
, Carbon N. Y., Volume 87, p.233–238, (2015)
Comparison of Commercial and Lab-Made MWCNT Buckypaper: Physicochemical Properties and Bioelectrocatalytic O2 Reduction,
, Electroanalysis, (2018)
Controlled carbon nanotube layers for impedimetric immunosensors: High performance label free detection and quantification of anti-cholera toxin antibody.,
, Biosens. Bioelectron., Volume 97, p.177–183, (2017)
Cubic PdNP-based air-breathing cathodes integrated in glucose hybrid biofuel cells.,
, Nanoscale, Volume 8, Number 19, p.10433–10440, (2016)
Dawson-type polyoxometalate nanoclusters confined in a carbon nanotube matrix as efficient redox mediators for enzymatic glucose biofuel cell anodes and glucose biosensors,
, Biosens. Bioelectron., Volume 109, (2018)
Design of carbon nanotube-polymer frameworks by electropolymerization of SWCNT-pyrrole derivatives.,
, Electrochim. Acta, Volume 53, Number 11, p.3948–3954, (2008)
Diazonium electrografting vs. physical adsorption of Azure A at carbon nanotubes for mediated glucose oxidation with FAD-GDH,
, ChemElectroChem, Volume 7, Issue 22, (2020)
Diazonium Functionalisation of Carbon Nanotubes for Specific Orientation of Multicopper Oxidases: Controlling Electron Entry Points and Oxygen Diffusion to the Enzyme.,
, Chem. - A Eur. J., Volume 22, Number 30, p.10494–10500, (2016)
Direct Electron Transfer between a Site-Specific Pyrene-Modified Laccase and Carbon Nanotube/Gold Nanoparticle Supramolecular Assemblies for Bioelectrocatalytic Dioxygen Reduction.,
, ACS Catal., Volume 6, Number 3, p.1894–1900, (2016)
Direct electron transfer between tyrosinase and multi-walled carbon nanotubes for bioelectrocatalytic oxygen reduction.,
, Electrochem. commun., Volume 20, p.19–22, (2012)
A double-walled carbon nanotube-based glucose/H2O2 biofuel cell operating under physiological conditions.,
, Electrochem. commun., Volume 34, p.105–108, (2013)
Efficient direct oxygen reduction by laccases attached and oriented on pyrene-functionalized polypyrrole/carbon nanotube electrodes.,
, Chem. Commun. (Cambridge, United Kingdom), Volume 49, Number 81, p.9281–9283, (2013)
Electroanalytical Sensing Properties of Pristine and Functionalized Multilayer Graphene.,
, Chem. Mater., Volume 26, Number 5, p.1807–1812, (2014)
Electrocatalytic O2 Reduction at a Bio-inspired Mononuclear Copper Phenolato Complex Immobilized on a Carbon Nanotube Electrode.,
, Angew. Chemie, Int. Ed., Volume 55, Number 7, p.2517–2520, (2016)
Electrocatalytic Oxidation of Glucose by Rhodium Porphyrin-Functionalized MWCNT Electrodes: Application to a Fully Molecular Catalyst-Based Glucose/O2 Fuel Cell.,
, J. Am. Chem. Soc., Volume 134, Number 34, p.14078–14085, (2012)
Electrochemical characterization of biotin functionalized and regular single-walled carbon nanotube coatings. Application to amperometric glucose biosensors.,
, Sens. Lett., Volume 7, Number 5, p.801–805, (2009)
Electrochemical fabrication of novel fluorescent polymeric film: Poly(pyrrole-pyrene).,
, Electrochem. commun., Volume 10, Number 10, p.1423–1426, (2008)
Electrochemical nanopatterning of an electrogenerated photosensitive poly-[trisbipyridinyl-pyrrole ruthenium(II)] metallopolymer by nanosphere lithography.,
, Electrochem. commun., Volume 46, p.75–78, (2014)
Electrogenerated trisbipyridyl Ru(II)-/nitrilotriacetic-polypyrene copolymer for the easy fabrication of label-free photoelectrochemical immunosensor and aptasensor: Application to the determination of thrombin and anti-cholera toxin antibody.,
, Biosens. Bioelectron., Volume 42, p.556–562, (2013)
Electrosynthesis of Pyrenediones on Carbon Nanotube Electrodes for Efficient Electron Transfer with FAD‐dependent Glucose Dehydrogenase in Biofuel Cell Anodes,
, ChemElectroChem, Volume 6, Issue 20, (2019)
Electrosynthesized polymers for biosensing.,
, Chem. Soc. Rev., Volume 40, Number 5, p.2146–2156, (2011)
Enhanced direct electron transfer of a multihemic nitrite reductase on single-walled carbon nanotube modified electrodes.,
, Electroanalysis, Volume 22, Number 24, p.2973–2978, (2010)
Enzymatic biosensors based on SWCNT-conducting polymer electrodes.,
, Anal. (Cambridge, United Kingdom), Volume 136, Number 7, p.1279–1287, (2011)
Enzymatic versus Electrocatalytic Oxidation of NADH at Carbon-Nanotube Electrodes Modified with Glucose Dehydrogenases: Application in a Bucky-Paper-Based Glucose Enzymatic Fuel Cell.,
, ChemElectroChem, Volume 3, Number 12, p.2058–2062, (2016)
Flotation assembly of large-area ultrathin MWCNT nanofilms for construction of bioelectrodes.,
, Nanomaterials, Volume 7, Number 10, p.342/1–342/11, (2017)
Freestanding HRP-GOx redox buckypaper as an oxygen-reducing biocathode for biofuel cell applications.,
, Energy Environ. Sci., Volume 8, Number 7, p.2069–2074, (2015)
Freestanding redox buckypaper electrodes from multi-wall carbon nanotubes for bioelectrocatalytic oxygen reduction via mediated electron transfer.,
, Chem. Sci., Volume 5, Number 7, p.2885–2888, (2014)
From gold porphyrins to gold nanoparticles: catalytic nanomaterials for glucose oxidation.,
, Nanoscale, Volume 6, Number 15, p.8556–8560, (2014)
Fully Oriented Bilirubin Oxidase on Porphyrin-Functionalized Carbon Nanotube Electrodes for Electrocatalytic Oxygen Reduction.,
, Chem. - A Eur. J., Volume 21, Number 47, p.16868–16873, (2015)
Functionalization of contacted Carbon Nanotube Forests by dip coating for high performing bio-cathodes,
, ChemElectroChem, Volume 7, Issue 22, (2020)
Functionalized Tungsten disulfide nanotubes for Dopamine and Catechol detection in a Tyrosinase-based Amperometric Biosensor design,
, Journal of Materials Chemistry B, Volume 8, (2020)
Glucose fuel cell based on carbon nanotube-supported pyrene-metalloporphyrin catalysts.,
, J. Mater. Chem. A Mater. Energy Sustain., Volume 4, Number 27, p.10635–10640, (2016)
Glucose oxidase bioanodes for glucose conversion and H2O2 production for horseradish peroxidase biocathodes in a flow through glucose biofuel cell design,
, Journal of Power Sources, Volume 392, (2018)
A H2/O2 enzymatic fuel cell as a sustainable power for a wireless device.,
, Electrochem. commun., Volume 60, p.216–220, (2015)
High performance miniature glucose/O2 fuel cell based on porous silicon anion exchange membrane.,
, Electrochem. commun., Volume 54, p.10–13, (2015)
A High Power Buckypaper Biofuel Cell: Exploiting 1,10-Phenanthroline-5,6-dione with FAD-Dependent Dehydrogenase for Catalytically-Powerful Glucose Oxidation.,
, ACS Catal., Volume 7, Number 7, p.4408–4416, (2017)
High power enzymatic biofuel cell based on naphthoquinone-mediated oxidation of glucose by glucose oxidase in a carbon nanotube 3D matrix.,
, Phys. Chem. Chem. Phys., Volume 15, Number 14, p.4892–4896, (2013)