BioElectronic Tongues: When the Sensor Array Incorporates Biosensors
One of the recent advances in the design of electronic tongues has been the incorporation of biosensors in order to tackle new application fields or to improve the existing ones. These bioelectronic tongues, as they have been named, are only distinguished from the conventional ones in the incorporat...
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| description | One of the recent advances in the design of electronic tongues has been the incorporation of biosensors in order to tackle new
application fields or to improve the existing ones. These bioelectronic
tongues, as they have been named, are only distinguished from the conventional ones in the incorporation of one or several biosensors
into the sensor array, normally sharing the same transduction
principle to facilitate its compatibility. After reviewing existing
examples from the literature, this chapter will deepen in two
case studies, one with potentiometric sensors and the other with
devices of the voltammetric type. The first is designed having in
mind the monitoring of the haemodialysis process, wherein urea and creatinine biosensors constructed on the basis of the proper
enzymes and ammonium ion selective electrodes are complementedwith additional sensors for alkaline ions. The second case, aimed to
the detection of phenolic antioxidant compounds, uses an array of
voltammetric biosensors incorporating different phenol-oxidizing
enzymes to generate the cross-sensitive responses. In both cases,
the data processing tool used has been artificial neural networks,
able to provide a precise response model to estimate concentrations
of involved species. |
| doi_str_mv | 10.1201/b15491-8 |
| format | Book Chapter |
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application fields or to improve the existing ones. These bioelectronic
tongues, as they have been named, are only distinguished from the conventional ones in the incorporation of one or several biosensors
into the sensor array, normally sharing the same transduction
principle to facilitate its compatibility. After reviewing existing
examples from the literature, this chapter will deepen in two
case studies, one with potentiometric sensors and the other with
devices of the voltammetric type. The first is designed having in
mind the monitoring of the haemodialysis process, wherein urea and creatinine biosensors constructed on the basis of the proper
enzymes and ammonium ion selective electrodes are complementedwith additional sensors for alkaline ions. The second case, aimed to
the detection of phenolic antioxidant compounds, uses an array of
voltammetric biosensors incorporating different phenol-oxidizing
enzymes to generate the cross-sensitive responses. In both cases,
the data processing tool used has been artificial neural networks,
able to provide a precise response model to estimate concentrations
of involved species.</description><identifier>ISBN: 9814411159</identifier><identifier>ISBN: 9789814411158</identifier><identifier>EISBN: 9789814411165</identifier><identifier>EISBN: 0429168977</identifier><identifier>EISBN: 9780429168970</identifier><identifier>EISBN: 9814411167</identifier><identifier>DOI: 10.1201/b15491-8</identifier><identifier>OCLC: 870946173</identifier><identifier>LCCallNum: TP159.C46</identifier><language>eng</language><publisher>Singapore: Pan Stanford</publisher><subject>Instruments & instrumentation engineering ; Materials science ; Physical chemistry</subject><ispartof>Multisensor Systems for Chemical Analysis, 2013, p.228-263</ispartof><rights>2013 by Taylor & Francis Group, LLC</rights><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Uhttps://ebookcentral.proquest.com/covers/1407638-l.jpg</thumbnail><link.rule.ids>779,780,784,793,24781,27925</link.rule.ids></links><search><contributor>Lvova, Larisa</contributor><contributor>Di Natale, Corrado</contributor><contributor>Kirsanov, Dmitry</contributor><contributor>Legin, Audrey</contributor><contributor>Legin, Audrey</contributor><contributor>Lvova, Larisa</contributor><contributor>Di Natale, Corrado</contributor><contributor>Kirsanov, Dmitry</contributor><title>BioElectronic Tongues: When the Sensor Array Incorporates Biosensors</title><title>Multisensor Systems for Chemical Analysis</title><description>One of the recent advances in the design of electronic tongues has been the incorporation of biosensors in order to tackle new
application fields or to improve the existing ones. These bioelectronic
tongues, as they have been named, are only distinguished from the conventional ones in the incorporation of one or several biosensors
into the sensor array, normally sharing the same transduction
principle to facilitate its compatibility. After reviewing existing
examples from the literature, this chapter will deepen in two
case studies, one with potentiometric sensors and the other with
devices of the voltammetric type. The first is designed having in
mind the monitoring of the haemodialysis process, wherein urea and creatinine biosensors constructed on the basis of the proper
enzymes and ammonium ion selective electrodes are complementedwith additional sensors for alkaline ions. The second case, aimed to
the detection of phenolic antioxidant compounds, uses an array of
voltammetric biosensors incorporating different phenol-oxidizing
enzymes to generate the cross-sensitive responses. In both cases,
the data processing tool used has been artificial neural networks,
able to provide a precise response model to estimate concentrations
of involved species.</description><subject>Instruments & instrumentation engineering</subject><subject>Materials science</subject><subject>Physical chemistry</subject><isbn>9814411159</isbn><isbn>9789814411158</isbn><isbn>9789814411165</isbn><isbn>0429168977</isbn><isbn>9780429168970</isbn><isbn>9814411167</isbn><fulltext>true</fulltext><rsrctype>book_chapter</rsrctype><creationdate>2013</creationdate><recordtype>book_chapter</recordtype><recordid>eNo1kM1KAzEUhSOiqLXgI8wLjOZm8uvKWqsWCi4suAyZJGMHx6QmUenb21pdHS6H7-NyELoAfAkEw1ULjCqo5QEaKyGVBEoBgLNDdPZ_MHWMTqXAinIQzQka59y3mHHKFGvUKbq77eNs8LakGHpbLWN4_fT5unpZ-VCVla-efcgxVZOUzKaaBxvTOiZTfK62ZP4t8zk66syQ_fgvR2h5P1tOH-vF08N8OlnUPUhWagXcGBCOCN_izlpOoWsdt4JZ21ohOtc4R4yRjjuBoePUtg1hUjIqJFfNCJG9dp3ix_bLon0b45v1oSQz2JVZF5-yBooFb6RWmpAddLOH-tDF9G6-YxqcLmYzxNQlE2yfd5IthvVuVL0fVUv9tZX1MZDmBx6CbFU</recordid><startdate>2013</startdate><enddate>2013</enddate><general>Pan Stanford</general><general>Jenny Stanford Publishing</general><scope>FFUUA</scope></search><sort><creationdate>2013</creationdate><title>BioElectronic Tongues: When the Sensor Array Incorporates Biosensors</title></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-i185t-916aa17d27eb0fcc641fbd6c75ccbc77fd3dd2aa8d6d701f64cb325885478693</frbrgroupid><rsrctype>book_chapters</rsrctype><prefilter>book_chapters</prefilter><language>eng</language><creationdate>2013</creationdate><topic>Instruments & instrumentation engineering</topic><topic>Materials science</topic><topic>Physical chemistry</topic><toplevel>online_resources</toplevel><collection>ProQuest Ebook Central - Book Chapters - Demo use only</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Lvova, Larisa</au><au>Di Natale, Corrado</au><au>Kirsanov, Dmitry</au><au>Legin, Audrey</au><au>Legin, Audrey</au><au>Lvova, Larisa</au><au>Di Natale, Corrado</au><au>Kirsanov, Dmitry</au><format>book</format><genre>bookitem</genre><ristype>CHAP</ristype><atitle>BioElectronic Tongues: When the Sensor Array Incorporates Biosensors</atitle><btitle>Multisensor Systems for Chemical Analysis</btitle><date>2013</date><risdate>2013</risdate><spage>228</spage><epage>263</epage><pages>228-263</pages><isbn>9814411159</isbn><isbn>9789814411158</isbn><eisbn>9789814411165</eisbn><eisbn>0429168977</eisbn><eisbn>9780429168970</eisbn><eisbn>9814411167</eisbn><abstract>One of the recent advances in the design of electronic tongues has been the incorporation of biosensors in order to tackle new
application fields or to improve the existing ones. These bioelectronic
tongues, as they have been named, are only distinguished from the conventional ones in the incorporation of one or several biosensors
into the sensor array, normally sharing the same transduction
principle to facilitate its compatibility. After reviewing existing
examples from the literature, this chapter will deepen in two
case studies, one with potentiometric sensors and the other with
devices of the voltammetric type. The first is designed having in
mind the monitoring of the haemodialysis process, wherein urea and creatinine biosensors constructed on the basis of the proper
enzymes and ammonium ion selective electrodes are complementedwith additional sensors for alkaline ions. The second case, aimed to
the detection of phenolic antioxidant compounds, uses an array of
voltammetric biosensors incorporating different phenol-oxidizing
enzymes to generate the cross-sensitive responses. In both cases,
the data processing tool used has been artificial neural networks,
able to provide a precise response model to estimate concentrations
of involved species.</abstract><cop>Singapore</cop><pub>Pan Stanford</pub><doi>10.1201/b15491-8</doi><oclcid>870946173</oclcid><tpages>36</tpages></addata></record> |
| fulltext | fulltext |
| identifier | ISBN: 9814411159 |
| ispartof | Multisensor Systems for Chemical Analysis, 2013, p.228-263 |
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| language | eng |
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| source | O'Reilly Online Learning: Academic/Public Library Edition |
| subjects | Instruments & instrumentation engineering Materials science Physical chemistry |
| title | BioElectronic Tongues: When the Sensor Array Incorporates Biosensors |
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