Fibroin/Polyaniline microfibrous mat. Preparation and electrochemical characterization as reactive sensor

•Microfibrous silk fibroin mats were coated with PANI by chemical polymerization.•During oxidation/reduction the polyaniline senses the reaction variables.•The potential or the consumed energy, during galvanostatic control, are the sensing magnitudes.•Basic electrochemical kinetic equations describe...

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Bibliographic Details
Published in:Electrochimica acta 2014-03, Vol.123, p.501-510
Main Authors: Ismail, Yahya A., Martínez, José G., Otero, Toribio F.
Format: Article
Language:English
Subjects:
Charge
Electric potential
Electrochemical reaction
Energy consumption
Mats
Microfibrous mat
Polyaniline
Polyanilines
Polymerization
Reaction time
Reduction (electrolytic)
Sensor
Silk
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Summary:•Microfibrous silk fibroin mats were coated with PANI by chemical polymerization.•During oxidation/reduction the polyaniline senses the reaction variables.•The potential or the consumed energy, during galvanostatic control, are the sensing magnitudes.•Basic electrochemical kinetic equations describe the empirical results. A first time report on the reactive sensing capabilities of polyaniline (PANI) is presented. Microfibrous silk fibroin mats were coated with polyaniline (PANI) through in situ chemical polymerization. The mat gives closed coulovoltammetric responses in acidic aqueous solution, indicating that only reversible PANI oxidation/reduction reactions occur. Inside the reversible range the chronopotentiometric responses change with (sense) the reaction variables: electrolyte concentration, pH, temperature and driving current. The potential of the materials, or the consumed electrical energy, for a constant reaction time follow the linear or semilogarithmic relationships with each of the experimental variables predicted by the electrochemical kinetics. The reversible charge from the closed coulovoltammetric loop also senses the chemical or thermal energetic conditions of the reaction acting on the conformational movements getting deeper oxidation states for rising energetic working conditions.
ISSN:0013-4686
1873-3859
DOI:10.1016/j.electacta.2014.01.073