The behaviour of three different laccase-based graphite biosensors was studied in view of their use in agricultural or industrial waters polluted by phenolic compounds. Catechol was used as a substrate model. Laccase from Trametes versicolor was immobilized on one biosensor (type A electrode) by adsorption while, on the other two biosensor types, laccase was covalently bound through the carboxylic groups created on the graphite by means of treatment with an electric potential difference (type B electrode) or with nitric acid (type C electrode). In the latter two cases, hexamethylenediamine and glutaraldehyde were used as the spacer and the coupling agent, respectively. The extension of linear response range and the sensitivity and time stability of each biosensor type were investigated. The type C biosensor gave the best results and its electrochemical properties proved comparable to those reported by other authors

Biosensors for phenolic compounds: The catechol as a substrate model / Portaccio, M.; Di Martino, S.; Maiuri, P.; Durante, D.; De Luca, P.; Lepore, M.; Bencivenga, U.; Rossi, S.; DE MAIO, Anna; Mita, D. G.. - In: JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC. - ISSN 1381-1177. - STAMPA. - 41:(2006), pp. 97-102.

Biosensors for phenolic compounds: The catechol as a substrate model

P. Maiuri;DE MAIO, ANNA;
2006

Abstract

The behaviour of three different laccase-based graphite biosensors was studied in view of their use in agricultural or industrial waters polluted by phenolic compounds. Catechol was used as a substrate model. Laccase from Trametes versicolor was immobilized on one biosensor (type A electrode) by adsorption while, on the other two biosensor types, laccase was covalently bound through the carboxylic groups created on the graphite by means of treatment with an electric potential difference (type B electrode) or with nitric acid (type C electrode). In the latter two cases, hexamethylenediamine and glutaraldehyde were used as the spacer and the coupling agent, respectively. The extension of linear response range and the sensitivity and time stability of each biosensor type were investigated. The type C biosensor gave the best results and its electrochemical properties proved comparable to those reported by other authors
2006
Biosensors for phenolic compounds: The catechol as a substrate model / Portaccio, M.; Di Martino, S.; Maiuri, P.; Durante, D.; De Luca, P.; Lepore, M.; Bencivenga, U.; Rossi, S.; DE MAIO, Anna; Mita, D. G.. - In: JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC. - ISSN 1381-1177. - STAMPA. - 41:(2006), pp. 97-102.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/506895
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