The aim of this study was to obtain an electrochemical device between the electrostatic interaction of the electropolymerized porphyrin {CoTPyP[RuCl(dppb)]}, where TPyP = 5,10,15, 20-tetrapyridilphorphyrin and dppb = 1,4-bis(diphenylphosphino)butane, and gold nanoparticles (AuNPs), to be used as a voltammetric sensor to determine catechol (CC). The modified electrode, labelled as [(CoTPRu)-BE]/AuNPs {where BE = bare electrode = glassy carbon electrode (GCE) or indium tin oxide (ITO)}, was made layer-by-layer. Initially, a cationic polymeric film was generated by electropolymerization of the {CoTPyP[RuCl(dppb)]} onto the surface of the bare electrode to produce an intermediary electrode [(CoTPRu)-BE]. Making the final electronic device also involves coating the electrode [(CoTPRu)-BE] using a colloidal suspension of AuNPs by electrostatic interaction between the species. Therefore, a bilayer labelled as [(CoTPRu)-BE]/AuNPs was produced and used as an electrochemical sensor for CC determination. The electrochemical behaviour of CC was investigated using cyclic voltammetry at [(CoTPRu)-GCE]/AuNPs electrode. Compared to the GCE, the [(CoTPRu)-GCE]/AuNPs showed higher electrocatalytic activity towards the oxidation of CC. Under the optimized conditions, the calibration curves for CC were 21-1357 µmol l with a high sensitivity of 108 µA µmol l cm. The detection limit was 1.4 µmol l.
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| http://dx.doi.org/10.1098/rsos.170675 | DOI Listing |
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