Mediated electrochemical detection of catechol by tyrosinase-based poly(dicarbazole) electrodes

Serge Cosnier; Sabine Szunerits; Robert S. Marks; Jean Paul Lellouche; Karine Perie

doi:10.1016/s0165-022x(01)00176-2

Mediated electrochemical detection of catechol by tyrosinase-based poly(dicarbazole) electrodes

Serge Cosnier, Sabine Szunerits, Robert S. Marks, Jean Paul Lellouche, Karine Perie

Research output: Contribution to journal › Article › peer-review

52 Scopus citations

Abstract

A new dicarbazole derivative functionalised by an N-hydroxysuccinimide group has been synthesised and electrochemically characterised. Upon oxidative electropolymerisation of this monomer in organic electrolytes, electroactive poly(dicarbazole) films were formed on platinum electrodes. The subsequent chemical grafting of tyrosinase on the poly(dicarbazole) film was easily performed by immersion in an enzymatic aqueous solution. The amperometric response of the resulting biosensors to catechol has been studied at -0.2 V vs. saturated calomel electrode (SCE). Since the reduction of quinone generates radicals which may induce electrode fouling, thionine, a phenothiazine dye, was covalently bound to the poly(dicarbazole) backbone as it mediates the reduction of quinoid products and therefore induces an enhancement of the performance of the tyrosinase-based biosensor.

Original language	English
Pages (from-to)	65-77
Number of pages	13
Journal	Journal of Biochemical and Biophysical Methods
Volume	50
Issue number	1
DOIs	https://doi.org/10.1016/s0165-022x(01)00176-2
State	Published - 4 Dec 2001
Externally published	Yes

Keywords

Catechol
Dicarbazole
N-hydroxysuccinimide

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10.1016/s0165-022x(01)00176-2

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title = "Mediated electrochemical detection of catechol by tyrosinase-based poly(dicarbazole) electrodes",

abstract = "A new dicarbazole derivative functionalised by an N-hydroxysuccinimide group has been synthesised and electrochemically characterised. Upon oxidative electropolymerisation of this monomer in organic electrolytes, electroactive poly(dicarbazole) films were formed on platinum electrodes. The subsequent chemical grafting of tyrosinase on the poly(dicarbazole) film was easily performed by immersion in an enzymatic aqueous solution. The amperometric response of the resulting biosensors to catechol has been studied at -0.2 V vs. saturated calomel electrode (SCE). Since the reduction of quinone generates radicals which may induce electrode fouling, thionine, a phenothiazine dye, was covalently bound to the poly(dicarbazole) backbone as it mediates the reduction of quinoid products and therefore induces an enhancement of the performance of the tyrosinase-based biosensor.",

keywords = "Catechol, Dicarbazole, N-hydroxysuccinimide",

author = "Serge Cosnier and Sabine Szunerits and Marks, {Robert S.} and Lellouche, {Jean Paul} and Karine Perie",

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doi = "10.1016/s0165-022x(01)00176-2",

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T1 - Mediated electrochemical detection of catechol by tyrosinase-based poly(dicarbazole) electrodes

AU - Cosnier, Serge

AU - Szunerits, Sabine

AU - Marks, Robert S.

AU - Lellouche, Jean Paul

AU - Perie, Karine

PY - 2001/12/4

Y1 - 2001/12/4

N2 - A new dicarbazole derivative functionalised by an N-hydroxysuccinimide group has been synthesised and electrochemically characterised. Upon oxidative electropolymerisation of this monomer in organic electrolytes, electroactive poly(dicarbazole) films were formed on platinum electrodes. The subsequent chemical grafting of tyrosinase on the poly(dicarbazole) film was easily performed by immersion in an enzymatic aqueous solution. The amperometric response of the resulting biosensors to catechol has been studied at -0.2 V vs. saturated calomel electrode (SCE). Since the reduction of quinone generates radicals which may induce electrode fouling, thionine, a phenothiazine dye, was covalently bound to the poly(dicarbazole) backbone as it mediates the reduction of quinoid products and therefore induces an enhancement of the performance of the tyrosinase-based biosensor.

AB - A new dicarbazole derivative functionalised by an N-hydroxysuccinimide group has been synthesised and electrochemically characterised. Upon oxidative electropolymerisation of this monomer in organic electrolytes, electroactive poly(dicarbazole) films were formed on platinum electrodes. The subsequent chemical grafting of tyrosinase on the poly(dicarbazole) film was easily performed by immersion in an enzymatic aqueous solution. The amperometric response of the resulting biosensors to catechol has been studied at -0.2 V vs. saturated calomel electrode (SCE). Since the reduction of quinone generates radicals which may induce electrode fouling, thionine, a phenothiazine dye, was covalently bound to the poly(dicarbazole) backbone as it mediates the reduction of quinoid products and therefore induces an enhancement of the performance of the tyrosinase-based biosensor.

KW - Catechol

KW - Dicarbazole

KW - N-hydroxysuccinimide

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IS - 1

ER -

Mediated electrochemical detection of catechol by tyrosinase-based poly(dicarbazole) electrodes

Abstract

Keywords

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