This study presents a new electrochemical sensor based on a molecularly
imprinted polymer (MIP) modified boron doped diamond (BDD) electrode
(MIP/BDD electrode) for the quantitative determination of
sulfamethoxazole (SMX).
This MIP/BDD electrode is prepared by in situ electro-polymerization of
pyrrole (Py) on the BDD electrode in the presence of SMX. This sensor
based on the MIP/BDD electrode performs a linear response for SMX from
0.1–100 μM with a limit of detection of 24.1 nM (S/N = 3) and a highly
reproducible response (2.32%).
The detection of SMX in surface water samples spiked at different
concentration levels performs satisfactorily at a recovery of
96.0–106.2%. Furthermore, this sensor exhibits a superior selectivity to
recognize SMX molecules even compared with other structural analogues
(SDM, SD and SIZ).
This high-selectivity determination originates from the imprinted sites
of the MIP film which have the advantages of appropriate cavity size and
homologous functional groups for the specific recognition of SMX
molecules. This specially designed sensor offers a simple, selective,
sensitive, reliable, stable and environmentally friendly approach for
SMX determination, providing a responsible strategy for effective SMX
analysis in environmental water.
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