Immobilization of glucose oxidase into a nanoporous TiO2 film layered on metallophthalocyanine modified vertically-aligned carbon nanotubes for efficient direct electron transfer

From National Research Council Canada

DOIResolve DOI: https://doi.org/10.1016/j.bios.2013.02.029
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Affiliation
  1. National Research Council of Canada
FormatText, Article
SubjectAmperometric response; Bioelectrocatalytic; Carbon nanotubes (CNT); Detection sensitivity; Direct electron transfer; Iron phthalocyanines; Metallophthalocyanines; Nano-porous TiO; Carbon nanotubes; Glucose; Glucose oxidase; Glucose sensors; Oxygen; Scanning electron microscopy; Titanium dioxide; Electron transitions; glucose; glucose oxidase; iron phthalocyanine; metallophthalocyanine; multi walled nanotube; nanoparticle; nitrogen; phthalocyanine derivative; titanium dioxide nanoparticle; unclassified drug; amperometry; chemical reaction; cyclic potentiometry; direct electron transfer; electric conductivity; enzyme electrode; enzyme immobilization; enzyme stability; limit of detection; nanoanalysis; nanochemistry; oxidation kinetics; porosity; response time; scanning electron microscopy; sensitivity analysis; surface property; Aspergillus niger; Biosensing Techniques; Electrodes; Enzymes, Immobilized; Ferrous Compounds; Glucose; Glucose Oxidase; Indoles; Nanotubes, Carbon; Porosity; Sensitivity and Specificity; Titanium
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LanguageEnglish
Peer reviewedYes
NPARC number21270583
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Record identifierc66e7c67-a146-4dfe-bf21-872d11418657
Record created2014-02-17
Record modified2020-04-22
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