Engineering a continuous flow electrochemical micro-cell for biosensor applications: New achievements

TitleEngineering a continuous flow electrochemical micro-cell for biosensor applications: New achievements
Publication TypeArticolo su Rivista peer-reviewed
Year of Publication2010
AuthorsIlie, M., Dejana R., Foglietti V., Renda R., Nardi Luca, Masci A., Lanza B., Montereali Maria Rita, L. Seta Della, Vastarella W, and Pilloton R.
JournalInternational Journal of Environmental Analytical Chemistry
Volume90
Pagination31-39
ISSN03067319
KeywordsBiosensor applications, Biosensors, Continuous flows, Electric connections, Electric connectors, Electrochemical electrodes, Electrochemical micro-cell, Flow devices, Flow of fluids, Fluid flow, Functional test, Metallic electrodes, Micro cell, Photosensitive glass, Reference electrodes, Standardization
Abstract

The functional tests of a previously obtained continuous flow micro-cell revealed a rather low value of the sensitivity of the chronoamperometric measurements as well as a poor reliability of both fluidic and electric connections. The engineering of the micro-cell regards the improvement of the following characteristics: (1) integrating the reference electrode on the chip, (2) designing a specific pattern of the electrodes and (3) serially distributing them along the pipeline reservoir. Thus, a plug-flow device is obtained and the preliminary tests confirm its functionality together with an improved sensitivity. The use of photosensitive glass (Foturan®) for obtaining the reservoir and its vertical openings allowed an improvement of the transversal shape and thus of the fluid flow. Better connections are achieved by the development of more reliable and rigid glass fluidic connections as well as of flexible elastomer-based solderless electric connections combined with both a standard DIL40 socket and standard flat cable connectors. © 2010 Taylor & Francis.

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URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-75349103389&doi=10.1080%2f03067310902795951&partnerID=40&md5=70008eaf6c114d730b8ca4a309fe03b7
DOI10.1080/03067310902795951