Biofuel cells implanted into the living body as power source for other implantable devices. Optimization study.

The direct electrical connection of laccase on the electrode surface is a key feature in the design of efficient and stable biocathodes. However, laccase can perform a direct electron transfer only when it is in the preferred orientation toward the electrode. Here we report the investigation of the orientation of laccase from white rot fungus on multi-walled carbon nanotube surface modified with a naphthalene group. Naphthylated multi wall carbon nanotubes were synthesized and the kinetics of laccase from white rot fungus adsorption and its direct electro-catalytic activity toward oxygen reduction was investigated by QCM and electrochemical techniques. Compared to pristine multi-walled carbon nanotubes laccase shows a high affinity to be adsorbed onto the surface of naphthylated carbon nanotubes at a very fast rate. The subsequent wiring to the naphthylated multiwalled carbon nanotubes is accompanied by a reorientation and arrangement of adsorbed laccase to create a composite biocathode that exhibits a high-performance for oxygen reduction by direct electron transfer with maximum current densities of 3 mA cm􀀀 2.

Details

Project's acronym:

Bioogniwa

Financial Program Name:

INNY

Organization:

Narodowa Agencja Wymiany Akademickiej

Agreement:

z dnia 2019-01-14

Realisation period:

2019-02-01 - 2020-12-31

Research team leader:

dr hab. inż. Kamila Sadowska

Realised in:

Faculty of Applied Physics and Mathematics

External institutions participating in project:

Laboratoire TIMC-IMAG/CNRS/UGA (France)

Request type:

Different

Domestic:

Domestic project

Verified by:

Gdańsk University of Technology

Papers associated with that project

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Year 2020

High catalytic performance of laccase wired to naphthylated multiwall carbon nanotubes
Publication
- A. Ben Tahar
- K. Sadowska
- J. Biernat
- E. Paluszkiewicz
- P. Cinquin
- D. Martin
- A. Zebda
- BIOSENSORS & BIOELECTRONICS - Year 2020
The direct electrical connection of laccase on the electrode surface is a key feature in the design of efficient and stable biocathodes. However, laccases can perform a direct electron transfer only when they are in the preferable orientation toward the electrode. Here we report the investigation of the orientation of Laccase from Amano on multi-walled carbon nanotube surface modified with naphthalene group. Naphthylated multi...

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