1995
DOI: 10.1016/0956-5663(95)99232-a
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Preliminary investigation of a bioelectrochemical sensor for the detection of phenol vapours

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Cited by 9 publications
(6 citation statements)
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References 23 publications
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“…Park et al presented a sensor for ethanol [16] based on a screen-printed three-electrode strip. Saini et al described a sensor for phenol [17] based on an interdigitated array of microband electrodes, and Sandstrçm et al a sensor for formic acid in air [18] based on a screen-printed threeelectrode configuration. In general, sensors using a planar electrode configuration are designed for single use only or as sniffers, or have a short lifetime due to deterioration of the thin enzyme/electrolyte layer, where reaction products accumulate, or which is subject to dehydration.…”
Section: Introductionmentioning
confidence: 99%
“…Park et al presented a sensor for ethanol [16] based on a screen-printed three-electrode strip. Saini et al described a sensor for phenol [17] based on an interdigitated array of microband electrodes, and Sandstrçm et al a sensor for formic acid in air [18] based on a screen-printed threeelectrode configuration. In general, sensors using a planar electrode configuration are designed for single use only or as sniffers, or have a short lifetime due to deterioration of the thin enzyme/electrolyte layer, where reaction products accumulate, or which is subject to dehydration.…”
Section: Introductionmentioning
confidence: 99%
“…Solution resistance problems prevalent in more polar solvents can be overcome through the use of supporting organic electrolytes, tetraalkylammonium salts being widely used [95,96]. Electroanalysis in highly non-polar solvents that do not solubulise organic electrolytes can be achieved using microelectrodes that minimise solution resistance problems such as 'Ohmic-drop' by virtue of their micrometre dimensions [97][98][99].…”
Section: Electrochemistry In the Organic-phasementioning
confidence: 99%
“…Miniaturisation has become a key area of biosensor development, for reasons of cost, minimal biocomponent requirement, multi-analyte measurement and in the creation of pattern recognition and array systems. Also of interest are ionic conducting films, deposited over both macro-and micro-electrodes for the measurement of analytes in organic solvents and gases [95,96,102]. Clearly, such devices have potential as transducers for immunosensing in such environments.…”
Section: Future Developmentsmentioning
confidence: 99%
“…Recently Turner investigated the feasibility of constructing a bioelectrochemical sensor that can operate directly in gases [51]. The sensor was based on ionically conducting films that incorporate polyphenol oxidase at the surface of an array of interdigitated microband electrodes.…”
Section: Gas-phase Biosensorsmentioning
confidence: 99%