Using Capsaicin Modified Multiwalled Carbon Nanotube Based Electrodes and p‐Chloranil Modified Carbon Paste Electrodes for the Determination of Amines: Application to Benzocaine and Lidocaine |
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Authors: | Roohollah T. Kachoosangi Gregory G. Wildgoose Richard G. Compton |
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Affiliation: | Department of Chemistry, Physical and Theoretical Chemistry Laboratory, Oxford University, South Parks Road, Oxford OX1?3QZ, UK |
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Abstract: | The utilization of the capsaicin modified carbon nanotube modified basal‐plane pyrolytic graphite electrode or p‐chloranil modified carbon paste electrodes are presented for the determination of pharmaceutical compounds containing amine functionality, such as benzocaine and lidocaine. In detection of benzocaine at a capsaicin modified electrode, the guaiacol functional group is irreversibly electrochemically oxidized to form the o‐quinone derivative which then undergoes nucleophilic attack by the aromatic amine group in benzocaine via a 1,4‐Michael addition mechanism forming a catechol‐amine adduct. The electrochemically initiated formation of the capsaicin‐benzocaine adduct causes a linear decrease in the voltammetric signal corresponding to capsaicin which correlates to the added concentration of benzocaine. |
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Keywords: | Benzocaine Lidocaine Capsaicin p‐Chloranil Multiwalled carbon nanotubes |
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