Electron-Donor−Acceptor Fullerene Derivative Retained on Electrodes Using SC3 Hydrophobin

Electron-Donor−Acceptor Fullerene Derivative Retained on Electrodes Using SC3 Hydrophobin

We report a novel method of preparing electrodes coated with an electron-donor−acceptor fullerene. The tailor-made fullerene derivative with possible use for future photovoltaic devices was blended into a self-assembled SC3 hydrophobin matrix. Hydrophobin, a small, naturally occurring protein, has t...

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Veröffentlicht in:Journal of physical chemistry. C 2007-01, Vol.111 (3), p.1176-1179
Hauptverfasser: Corvis, Yohann, Trzcinska, Kinga, Rink, Rick, Bilkova, Petra, Gorecka, Ewa, Bilewicz, Renata, Rogalska, Ewa
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container_end_page 1179
container_issue 3
container_start_page 1176
container_title Journal of physical chemistry. C
container_volume 111
creator Corvis, Yohann
Trzcinska, Kinga
Rink, Rick
Bilkova, Petra
Gorecka, Ewa
Bilewicz, Renata
Rogalska, Ewa
description We report a novel method of preparing electrodes coated with an electron-donor−acceptor fullerene. The tailor-made fullerene derivative with possible use for future photovoltaic devices was blended into a self-assembled SC3 hydrophobin matrix. Hydrophobin, a small, naturally occurring protein, has the remarkable property of adhering to almost any surface. The blend, immobilized by physisorption on glassy carbon electrodes, was electrochemically functional. The ease and rapidity of preparation, as well as the chemical and physical robustness of the system obtained, show that the biomimetic approach used for elaborating nanostructured materials might be of interest for technological applications.
doi_str_mv 10.1021/jp0652401
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title Electron-Donor−Acceptor Fullerene Derivative Retained on Electrodes Using SC3 Hydrophobin
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