Application of original assemblies of polyelectrolytes, urease and electrodeposited polyaniline as sensitive films of potentiometric urea biosensors

[Display omitted] •Elaboration of original polymer materials using self-assembly and electrochemistry.•In situ monitoring of the growth of the polymer materials.•Development of urea electrochemical sensors using a home-made mini-potentiostat. Original assemblies were prepared for use as sensitive fi...

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Bibliographic Details
Published in:Electrochimica acta 2014-12, Vol.148, p.53-61
Main Authors: Buron, Cédric C., Quinart, Mélanie, Vrlinic, Tjasa, Yunus, Sami, Glinel, Karine, Jonas, Alain M., Lakard, Boris
Format: Article
Language:English
Subjects:
Adsorption
Assemblies
Chemical Sciences
Electrochemistry
Enzymes
Microbalances
Multilayers
Polyaniline
Polyanilines
Polyelectrolyte multilayer film
Self-assembly
Sensors
Urea sensors
Ureas
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Summary:[Display omitted] •Elaboration of original polymer materials using self-assembly and electrochemistry.•In situ monitoring of the growth of the polymer materials.•Development of urea electrochemical sensors using a home-made mini-potentiostat. Original assemblies were prepared for use as sensitive films of potentiometric enzyme urea sensors, and compared to identify the more efficient structure with respect to stability. These films included electrodeposited polyaniline, used as transducer, urease, used as catalyst, and biocompatible polyelectrolytes, used as a matrix to preserve the integrity of the enzyme in the sensitive film. Two kinds of assemblies were done: the first one consisted in the adsorption of urease onto a polyaniline film followed by the adsorption of a chitosan-carboxymethylpullulan multilayer film, while the second one consisted in the adsorption of a urease-chitosan multilayer film onto an electrodeposited polyaniline film. The morphological features and growth of these assemblies were characterized by scanning electron microscopy and quartz crystal microbalance, respectively. This allowed us to demonstrate that the assemblies are successfully formed onto the electrodes of the sensors. The potentiometric responses of both assemblies were then measured as a function of urea concentration using a home-made portable potentiostat. The electrochemical response of resulting sensors was fast and sensitive for both types of assemblies, but the stability in time was much better for the films obtained from alternative adsorption of urease and chitosan onto a layer of urease adsorbed over electrodeposited polyaniline.
ISSN:0013-4686
1873-3859
DOI:10.1016/j.electacta.2014.10.026