An sp2 Patterned Boron Doped Diamond Electrode for the Simultaneous Detection of Dissolved Oxygen and pH

A hybrid sp2-sp3 electrochemical sensor comprising patterned regions of nondiamond-carbon (sp2) in a boron doped diamond (sp3) matrix is described for the simultaneous voltammetric detection of dissolved oxygen (DO) and pH in buffered aqueous solutions. Using a laser micropatterning process it is po...

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Bibliographic Details
Published in:ACS sensors 2019-03, Vol.4 (3), p.756-763
Main Authors: Read, Tania L, Cobb, Samuel J, Macpherson, Julie V
Format: Article
Language:eng ; jpn
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Summary:A hybrid sp2-sp3 electrochemical sensor comprising patterned regions of nondiamond-carbon (sp2) in a boron doped diamond (sp3) matrix is described for the simultaneous voltammetric detection of dissolved oxygen (DO) and pH in buffered aqueous solutions. Using a laser micropatterning process it is possible to write mechanically robust regions of sp2 carbon into a BDD electrode. These regions both promote the electrocatalytic reduction of oxygen and facilitate the proton coupled electron transfer of quinone groups, integrated into the surface of the sp2 carbon. In this way, in one voltammetric sweep (time of measurement ∼4 s) it is possible to determine both the DO concentration and solution pH. By varying the sp2 pattern the response can be optimized toward both analytes. Using a closely spaced sp2 microspot array, a linear response toward DO, across the range 0.0 to 8.0 mg L–1 (0.0 to 0.25 mM; sensitivity = −8.77 × 10–8 A L mg–1, R 2 = 0.9991) and pH range 4–10 (sensitivity = 59.7 mV pH–1, R 2 = 0.9983) is demonstrated. The electrode is also capable of measuring both DO concentration and pH in the more complex buffered environment of blood. Finally, we show how the peak position for ORR is independent of pH, and thus via measurement of the difference in ORR and pH peak position, internal referencing is possible. Such electrodes show great promise for use in applications ranging from biomedical sensing to water analysis.
ISSN:2379-3694
2379-3694
DOI:10.1021/acssensors.9b00137