AI Article Synopsis
- - The study tested a carbon paste electrode modified with ruthenium(IV) oxide as a highly sensitive sensor for detecting hydrogen peroxide using amperometry, showing detection limits as low as 0.02 mM at pH 7.4.
- - The sensor's performance was affected by factors like pH and potential, and it was specifically used to monitor the breakdown of hydrogen peroxide by the enzyme catalase in a phosphate buffer.
- - Improvement in selectivity against ascorbic acid was achieved by electro-polymerizing m-phenylenediamine on the electrode's surface, allowing for effective measurement of catalase activity in various plant samples with high recovery rates.
Article Abstract
A carbon paste electrode containing ruthenium(IV) oxide as a modifier was tested as an effective hydrogen peroxide amperometric sensor in bulk measurements (hydrodynamic amperometry). Factors that influence its overall analytical perform ance, such as pH and the applied potential, were examined. The RuO2-modified electrode displayed high sensitivity towards hydrogen peroxide, with detection limits as low as 0.02 mm at pH 7.4 and 0.007 mM at pH 9.0. The method was applied for monitoring the decomposition of hydrogen peroxide (by catalase) in phosphate buffer of pH 7.4. The relative response of the electrode towards ascorbic acid was assessed and it was found that the selectivity of the RuO2-modified electrode towards hydrogen peroxide over ascorbic acid could be significantly improved by electro-polymerizing m-phenylenediamine on its surface prior to measurements. The RuO2-modified electrode was used for the kinetic (fixed time) determination of catalase activity in the range of 4-40 U/mL (detection limit 1.2 U/mL). The method was applied to the determination of catalase-like activity in various plant materials (recov-ery ranged from 93 to 101%, detection limit 480 U/100 g).
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| http://dx.doi.org/10.1002/pca.910 | DOI Listing |
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