Direct electron transfer of bilirubin oxidase at a carbon flow-through electrode

The kinetics and isotherms of adsorption of Myrothecium verrucaria bilirubin oxidase (Mv BOD) on nanoporous carbons (CNP) and carbon nanofibers (CNF) were studied by the solution depletion method. The kinetics of adsorption of Mv BOD on both carbons are very fast, reaching equilibrium within 10 min...

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Bibliographic Details
Published in:Electrochimica acta 2018-09, Vol.283, p.88-96
Main Authors: Wernert, Véronique, Lebouin, Chrystelle, Benoit, Virginie, Gadiou, Roger, de Poulpiquet, Anne, Lojou, Elisabeth, Denoyel, Renaud
Format: Article
Language:English
Subjects:
Adsorption
Bilirubin oxidase
Carbon
Carbon fibers
Catalysis
Chemical Sciences
Electrodes
Electron transfer
Enzymatic fuel cell
Flow-through electrode
Isotherm
Isotherms
Nanofibers
Oxidase
Reaction kinetics
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Summary:The kinetics and isotherms of adsorption of Myrothecium verrucaria bilirubin oxidase (Mv BOD) on nanoporous carbons (CNP) and carbon nanofibers (CNF) were studied by the solution depletion method. The kinetics of adsorption of Mv BOD on both carbons are very fast, reaching equilibrium within 10 min and 30 min for CNP and CNF, respectively. The adsorption isotherms reveal a strong affinity between Mv BOD and both carbons. An original flow-through device based on electrodes filled with CNP and CNF connected to an UV–vis spectrophotometer was used to correlate the dioxygen catalytic current reduction to the amount of Mv BOD adsorbed on the carbons. It was shown that although the amount of BOD adsorbed on CNP is much lower than the amount adsorbed on CNF, the currents are comparable, suggesting that the Mv BOD orientation is more favourable for direct electron transfer in the case of CNP. Chronoamperometry experiments showed that the catalytic current is stable for a few days (70 h). It was emphasized by stop and flow experiments that the current is limited by mass transport inside the column. [Display omitted] •Flow through electrode packed with mg of carbon material.•Quantification of the kinetics of bilirubin oxidase adsorption.•Simultaneous measurement of the amount of enzyme adsorbed and of the catalytic current generated.
ISSN:0013-4686
1873-3859
DOI:10.1016/j.electacta.2018.06.136