Enzyme based field effect transistor: State-of-the-art and future perspectives

Lucia Sarcina; Eleonora Macchia; Angelo Tricase; Cecilia Scandurra; Anna Imbriano; Fabrizio Torricelli; Nicola Cioffi; Luisa Torsi; Paolo Bollella

doi:10.1002/elsa.202100216

Enzyme based field effect transistor: State-of-the-art and future perspectives

Lucia Sarcina, Eleonora Macchia, Angelo Tricase, Cecilia Scandurra, Anna Imbriano, Fabrizio Torricelli, Nicola Cioffi, Luisa Torsi^*, Paolo Bollella^*

^*Korresponderande författare för detta arbete

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Forskningsoutput: Tidskriftsbidrag › Kort undersökning › Peer review

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The review discloses the historical and technological evolution of enzyme-based field-effect transistors (EnFETs) underlying the importance of gate electrode modification toward the implementation of novel FETs configurations such as extended-gate FET (EG-FETs) or EG organic FETs (EG-OFETs). The working principle of the EnFETs as postulated by Bergveld in 1970, who defined the EnFET as an ion-selective FET (ISFET) modified with enzyme-membrane, is also discussed considering the analytical equations related to the EnFET output response. For each category, namely EnFETs, EG-FETs, and EG-OFETs, we reviewed the key devices’ configurations that addressed the research in this field in the last 40 years with particular attention to the analytical figures of merit.

Originalspråk	Engelska
Artikelnummer	e2100216
Tidskrift	Electrochemical Science Advances
Volym	3
Nummer	3
DOI	https://doi.org/10.1002/elsa.202100216
Status	Publicerad - juni 2023
MoE-publikationstyp	O2 Other

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10.1002/elsa.202100216Licens: CC BY

Electrochemical Science Adv - 2022 - Sarcina - Enzyme based field effect transistor State‐of‐the‐art and futureSlutlig publicerad version, 2,22 MBLicens: CC BY

https://urn.fi/URN:NBN:fi-fe202401314929

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abstract = "The review discloses the historical and technological evolution of enzyme-based field-effect transistors (EnFETs) underlying the importance of gate electrode modification toward the implementation of novel FETs configurations such as extended-gate FET (EG-FETs) or EG organic FETs (EG-OFETs). The working principle of the EnFETs as postulated by Bergveld in 1970, who defined the EnFET as an ion-selective FET (ISFET) modified with enzyme-membrane, is also discussed considering the analytical equations related to the EnFET output response. For each category, namely EnFETs, EG-FETs, and EG-OFETs, we reviewed the key devices{\textquoteright} configurations that addressed the research in this field in the last 40 years with particular attention to the analytical figures of merit.",

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AU - Macchia, Eleonora

AU - Tricase, Angelo

AU - Scandurra, Cecilia

AU - Imbriano, Anna

AU - Torricelli, Fabrizio

AU - Cioffi, Nicola

AU - Torsi, Luisa

AU - Bollella, Paolo

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AB - The review discloses the historical and technological evolution of enzyme-based field-effect transistors (EnFETs) underlying the importance of gate electrode modification toward the implementation of novel FETs configurations such as extended-gate FET (EG-FETs) or EG organic FETs (EG-OFETs). The working principle of the EnFETs as postulated by Bergveld in 1970, who defined the EnFET as an ion-selective FET (ISFET) modified with enzyme-membrane, is also discussed considering the analytical equations related to the EnFET output response. For each category, namely EnFETs, EG-FETs, and EG-OFETs, we reviewed the key devices’ configurations that addressed the research in this field in the last 40 years with particular attention to the analytical figures of merit.

KW - enzymes

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KW - field-effect transistors

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KW - potentiometric sensors

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Enzyme based field effect transistor: State-of-the-art and future perspectives

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