Preliminary investigations on a glucose biosensor based on the potentiometric principle

In this study, an electron mediator and a simple immobilization process are adopted to fabricate a potentiometric glucose biosensor. The enzyme and the electron mediator are immobilized on the surface of tin oxide (SnO 2)/indium tin oxide (ITO) glass using a covalent bond method to develop a disposa...

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Published inSensors and actuators. B, Chemical Vol. 123; no. 2; pp. 720 - 726
Main Authors Liao, Cheng-Wei, Chou, Jung-Chuan, Sun, Tai-Ping, Hsiung, Shen-Kan, Hsieh, Jui-Hsiang
Format Journal Article
LanguageEnglish
Published Elsevier B.V 21.05.2007
Subjects
3-Glycidyloxypropyltrimethoxysilane (GPTS)
Electron mediator
Glucose oxidase (GOD)
Potentiometric biosensor
Tin oxide (SnO 2)
Electron mediator
3-Glycidyloxypropyltrimethoxysilane (GPTS)
Tin oxide (SnO 2)
Glucose oxidase (GOD)
Potentiometric biosensor
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Abstract In this study, an electron mediator and a simple immobilization process are adopted to fabricate a potentiometric glucose biosensor. The enzyme and the electron mediator are immobilized on the surface of tin oxide (SnO 2)/indium tin oxide (ITO) glass using a covalent bond method to develop a disposable potentiometric glucose biosensor. The SnO 2/ITO glass is a pH sensor fabricated by depositing SnO 2 thin films onto an ITO glass. The glucose oxidase (GOD) and the electron mediator (ferrocenecarboxylic acid, FcA) are co-immobilized on the SnO 2/ITO glass using 3-glycidyloxypropyltrimethoxysilane (GPTS). This work investigates the coimmobilization of GOD and FcA as a useful approach for enlarging the dynamic range to a glucose concentration of 360 mg/dl, and for improving linearity and sensitivity of the fabricated glucose biosensor. The experimental results indicate that the optimal weight ratio of GOD to FcA is 1:1. The output signal is associated with the pH of the measurement environment and the optimal pH value is pH 7.5.
AbstractList In this study, an electron mediator and a simple immobilization process are adopted to fabricate a potentiometric glucose biosensor. The enzyme and the electron mediator are immobilized on the surface of tin oxide (SnO 2)/indium tin oxide (ITO) glass using a covalent bond method to develop a disposable potentiometric glucose biosensor. The SnO 2/ITO glass is a pH sensor fabricated by depositing SnO 2 thin films onto an ITO glass. The glucose oxidase (GOD) and the electron mediator (ferrocenecarboxylic acid, FcA) are co-immobilized on the SnO 2/ITO glass using 3-glycidyloxypropyltrimethoxysilane (GPTS). This work investigates the coimmobilization of GOD and FcA as a useful approach for enlarging the dynamic range to a glucose concentration of 360 mg/dl, and for improving linearity and sensitivity of the fabricated glucose biosensor. The experimental results indicate that the optimal weight ratio of GOD to FcA is 1:1. The output signal is associated with the pH of the measurement environment and the optimal pH value is pH 7.5.
In this study, an electron mediator and a simple immobilization process are adopted to fabricate a potentiometric glucose biosensor. The enzyme and the electron mediator are immobilized on the surface of tin oxide (SnO sub(2))/indium tin oxide (ITO) glass using a covalent bond method to develop a disposable potentiometric glucose biosensor. The SnO sub(2)/ITO glass is a pH sensor fabricated by depositing SnO sub(2) thin films onto an ITO glass. The glucose oxidase (GOD) and the electron mediator (ferrocenecarboxylic acid, FcA) are co-immobilized on the SnO sub(2)/ITO glass using 3-glycidyloxypropyltrimethoxysilane (GPTS). This work investigates the coimmobilization of GOD and FcA as a useful approach for enlarging the dynamic range to a glucose concentration of 360mg/dl, and for improving linearity and sensitivity of the fabricated glucose biosensor. The experimental results indicate that the optimal weight ratio of GOD to FcA is 1:1. The output signal is associated with the pH of the measurement environment and the optimal pH value is pH 7.5.
Author Hsiung, Shen-Kan
Chou, Jung-Chuan
Sun, Tai-Ping
Liao, Cheng-Wei
Hsieh, Jui-Hsiang
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  organization: Institute of Biomedical Engineering, Chung Yuan Christian University, Chung-Li 320, Taiwan, ROC
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Keywords Electron mediator
3-Glycidyloxypropyltrimethoxysilane (GPTS)
Tin oxide (SnO 2)
Glucose oxidase (GOD)
Potentiometric biosensor
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Snippet In this study, an electron mediator and a simple immobilization process are adopted to fabricate a potentiometric glucose biosensor. The enzyme and the...
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SubjectTerms 3-Glycidyloxypropyltrimethoxysilane (GPTS)
Electron mediator
Glucose oxidase (GOD)
Potentiometric biosensor
Tin oxide (SnO 2)
Title Preliminary investigations on a glucose biosensor based on the potentiometric principle
URI https://dx.doi.org/10.1016/j.snb.2006.10.006
https://search.proquest.com/docview/20727148
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