Enhancement of Biosensors by Implementing Photoelectrochemical Processes

Research on biosensors is growing in relevance, taking benefit from groundbreaking knowledge that allows for new biosensing strategies. Electrochemical biosensors can benefit from research on semiconducting materials for energy applications. This research seeks the optimization of the semiconductor-...
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Autor*in:	Melisa del Barrio [verfasserIn] Gabriel Luna-López [verfasserIn] Marcos Pita [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2020

Schlagwörter:	biosensors bioelectrochemistry photo-biosensors enzyme biocatalysis

Übergeordnetes Werk:	In: Sensors - MDPI AG, 2003, 20(2020), 11, p 3281
Übergeordnetes Werk:	volume:20 ; year:2020 ; number:11, p 3281

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.3390/s20113281

Katalog-ID:	DOAJ032556349

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language	English
source	In Sensors 20(2020), 11, p 3281 volume:20 year:2020 number:11, p 3281
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topic_facet	biosensors bioelectrochemistry photo-biosensors enzyme biocatalysis Chemical technology
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container_title	Sensors
authorswithroles_txt_mv	Melisa del Barrio @@aut@@ Gabriel Luna-López @@aut@@ Marcos Pita @@aut@@
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callnumber-first	T - Technology
author	Melisa del Barrio
spellingShingle	Melisa del Barrio misc TP1-1185 misc biosensors misc bioelectrochemistry misc photo-biosensors misc enzyme misc biocatalysis misc Chemical technology Enhancement of Biosensors by Implementing Photoelectrochemical Processes
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topic	misc TP1-1185 misc biosensors misc bioelectrochemistry misc photo-biosensors misc enzyme misc biocatalysis misc Chemical technology
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title_auth	Enhancement of Biosensors by Implementing Photoelectrochemical Processes
abstract	Research on biosensors is growing in relevance, taking benefit from groundbreaking knowledge that allows for new biosensing strategies. Electrochemical biosensors can benefit from research on semiconducting materials for energy applications. This research seeks the optimization of the semiconductor-electrode interfaces including light-harvesting materials, among other improvements. Once that knowledge is acquired, it can be implemented with biological recognition elements, which are able to transfer a chemical signal to the photoelectrochemical system, yielding photo-biosensors. This has been a matter of research as it allows both a superior suppression of background electrochemical signals and the switching ON and OFF upon illumination. Effective electrode-semiconductor interfaces and their coupling with biorecognition units are reviewed in this work.
abstractGer	Research on biosensors is growing in relevance, taking benefit from groundbreaking knowledge that allows for new biosensing strategies. Electrochemical biosensors can benefit from research on semiconducting materials for energy applications. This research seeks the optimization of the semiconductor-electrode interfaces including light-harvesting materials, among other improvements. Once that knowledge is acquired, it can be implemented with biological recognition elements, which are able to transfer a chemical signal to the photoelectrochemical system, yielding photo-biosensors. This has been a matter of research as it allows both a superior suppression of background electrochemical signals and the switching ON and OFF upon illumination. Effective electrode-semiconductor interfaces and their coupling with biorecognition units are reviewed in this work.
abstract_unstemmed	Research on biosensors is growing in relevance, taking benefit from groundbreaking knowledge that allows for new biosensing strategies. Electrochemical biosensors can benefit from research on semiconducting materials for energy applications. This research seeks the optimization of the semiconductor-electrode interfaces including light-harvesting materials, among other improvements. Once that knowledge is acquired, it can be implemented with biological recognition elements, which are able to transfer a chemical signal to the photoelectrochemical system, yielding photo-biosensors. This has been a matter of research as it allows both a superior suppression of background electrochemical signals and the switching ON and OFF upon illumination. Effective electrode-semiconductor interfaces and their coupling with biorecognition units are reviewed in this work.
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title_short	Enhancement of Biosensors by Implementing Photoelectrochemical Processes
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