Amperometric L-lactate Biosensor Based on Screen-printed Carbon Electrode Containing Cobalt Phthalocyanine, Coated with Lactate Oxidase-mesoporous Silica Conjugate Layer

Overview

Journal Anal Chim Acta

Publisher Elsevier

Specialty Chemistry

Date 2012 Jan 17

PMID 22244144

Citations 12

Authors

Takeshi Shimomura

Touru Sumiya

Masatoshi Ono

Tetsuji Ito

Taka-aki Hanaoka

Affiliations

Soon will be listed here.

Abstract

A novel amperometric biosensor for the measurement of L-lactate has been developed. The device comprises a screen-printed carbon electrode containing cobalt phthalocyanine (CoPC-SPCE), coated with lactate oxidase (LOD) that is immobilized in mesoporous silica (FSM8.0) using a polymer matrix of denatured polyvinyl alcohol; a Nafion layer on the electrode surface acts as a barrier to interferents. The sampling unit attached to the SPCE requires only a small sample volume of 100 μL for each measurement. The measurement of l-lactate is based on the signal produced by hydrogen peroxide, the product of the enzymatic reaction. The behavior of the biosensor, LOD-FSM8.0/Naf/CoPC-SPCE, was examined in terms of pH, applied potential, sensitivity and operational range, selectivity, and storage stability. The sensor showed an optimum response at a pH of 7.4 and an applied potential of +450 mV. The determination range and the response time for L-lactate were 18.3 μM to 1.5 mM and approximately 90s, respectively. In addition, the sensor exhibited high selectivity for L-lactate and was quite stable in storage, showing no noticeable change in its initial response after being stored for over 9 months. These results indicate that our method provides a simple, cost-effective, high-performance biosensor for l-lactate.

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