Microplate-Compatible Biamperometry Array for Parallel 48-Channel Amperometric or Coulometric Measurements

We report a new reusable electrochemical array for parallel biamperometric measurements that has been designed for use with standard microplates. The 48-channel array uses half of the available 96 wells and has 48 pairs of Pt wire electrodes. Applications to the quantitation of a variety of oxidizab...

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Bibliographic Details
Published in:Analytical chemistry (Washington) 2008-01, Vol.80 (8), p.2988-2992
Main Authors: Mann, Thomas S, O'Hagan, Liam, Ertl, Peter, Sparkes, Douglas I, Mikkelsen, Susan R
Format: Article
Language:English
Online Access:Get full text
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Summary:We report a new reusable electrochemical array for parallel biamperometric measurements that has been designed for use with standard microplates. The 48-channel array uses half of the available 96 wells and has 48 pairs of Pt wire electrodes. Applications to the quantitation of a variety of oxidizable species, including acetaminophen, ascorbic acid, hydroquinone, trolox, and uric acid, are demonstrated in assays that use potassium ferricyanide as an oxidant to produce a mixture of ferri- and ferrocyanide. Hydrogen peroxide quantitation is also demonstrated, based on an assay in which ferrocyanide is oxidized, again to produce a mixture of ferri- and ferrocyanide. Detection limits (signal-to-noise ratio (S/N) = 3) in these assays range from 1 (acetaminophen, R super(2) = 0.994) to 8 mM (ascorbic acid, R super(2) = 0.967), and linearity was observed to analyte concentrations of at least 100 mM. We also demonstrate the application of the biamperometric array to enzymatic assays, using the glucose oxidase reaction as an example; following a 20 min enzyme reaction time, a detection limit of 0.1 mM glucose was obtained. These results indicate that applications to other oxidase-based assays are feasible in this high-throughput format. The new electrochemical array employs standard, inexpensive microplates, and the biamperometric measurements are simple, precise, and rapid, requiring only 2 min for 48 parallel measurements.
ISSN:0003-2700
1520-6882
DOI:10.1021/ac7020486PII:S0003-2700(70)02048-6