Nanoenabling electrochemical sensors for life sciences applications

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dc.contributor.author Padmanathan, Narayanasamy
dc.contributor.author Razeeb, Kafil M.
dc.contributor.author Rohan, James F.
dc.contributor.author Nagle, Lorraine C.
dc.contributor.author Wahl, Amélie
dc.contributor.author Moore, Eric
dc.contributor.author Messina, Walter
dc.contributor.author Twomey, Karen
dc.contributor.author Ogurtsov, Vladimir I.
dc.contributor.author Galvin, Paul
dc.date.accessioned 2019-03-15T12:16:55Z
dc.date.available 2019-03-15T12:16:55Z
dc.date.issued 2017-08-14
dc.identifier.citation Galvin, P., Padmanathan, N., Razeeb, K. M., Rohan, J. F., Nagle, L. C., Wahl, A., Moore, E., Messina, W., Twomey, K. and Ogurtsov, V. (2017) 'Nanoenabling electrochemical sensors for life sciences applications', Journal of Materials Research, 32(15), pp. 2883-2904. doi: 10.1557/jmr.2017.290 en
dc.identifier.volume 32 en
dc.identifier.issued 15 en
dc.identifier.startpage 2883 en
dc.identifier.endpage 2904 en
dc.identifier.issn 0884-2914
dc.identifier.uri http://hdl.handle.net/10468/7635
dc.identifier.doi 10.1557/jmr.2017.290
dc.description.abstract Electrochemical sensing systems are advancing into a wide range of new applications, moving from the traditional lab environment into disposable devices and systems, enabling real-time continuous monitoring of complex media. This transition presents numerous challenges ranging from issues such as sensitivity and dynamic range, to autocalibration and antifouling, to enabling multiparameter analyte and biomarker detection from an array of nanosensors within a miniaturized form factor. New materials are required not only to address these challenges, but also to facilitate new manufacturing processes for integrated electrochemical systems. This paper examines the recent advances in the instrumentation, sensor architectures, and sensor materials in the context of developing the next generation of nanoenabled electrochemical sensors for life sciences applications, and identifies the most promising solutions based on selected well established application exemplars. en
dc.format.mimetype application/pdf en
dc.language.iso en en
dc.publisher Cambridge University Press (CUP) en
dc.rights © Materials Research Society 2017. This article has been published in a revised form in Journal of Materials Research, [http://dx.doi.org/10.1557/jmr.2017.290]. This version is free to view and download for private research and study only. Not for re-distribution, re-sale or use in derivative works. en
dc.subject Sensor en
dc.subject Nanoscale en
dc.subject Microelectronics en
dc.subject Electrochemical sensors en
dc.title Nanoenabling electrochemical sensors for life sciences applications en
dc.type Article (peer-reviewed) en
dc.internal.authorcontactother James Rohan, Tyndall Microsystems, University College Cork, Cork, Ireland. +353-21-490-3000 Email: james.rohan@tyndall.ie en
dc.internal.availability Full text available en
dc.date.updated 2019-03-15T12:11:08Z
dc.description.version Accepted Version en
dc.internal.rssid 468876264
dc.contributor.funder Science Foundation Ireland en
dc.contributor.funder Enterprise Ireland en
dc.contributor.funder Sixth Framework Programme en
dc.contributor.funder Seventh Framework Programme en
dc.contributor.funder Horizon 2020 en
dc.description.status Peer reviewed en
dc.identifier.journaltitle Journal Of Materials Research en
dc.internal.copyrightchecked No !!CORA!! en
dc.internal.licenseacceptance Yes en
dc.internal.IRISemailaddress james.rohan@tyndall.ie en


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