Development and characterization of sensing layers based on molecularly imprinted conducting polymers for the electrochemical and gravimetrical detection of small organic molecules

ACN acetonitrile; AFM atomic force microscopy; APB aminophenylboronate; An aniline; CV cyclic voltammetry; DA dopamine; DFT density functional theory; Fu furan;

Therefore, in this paper we show that the combination of the amperometric biosensor and extraction step using molecularly imprinted polymer allows the selective detection

The analysis of the chromatographic behaviour, the comparison with NIPs and the selectivity for carbenda- zim showed that these polymers could be useful applied as stationary phase

When a 830 nm laser was used to produce Raman scattering of the MIPs based on different functional monomers, the Raman spectra showed to be seriously distorted by fluorescence

Except the leak of the template molecule (NOR) from the MIP (3 ng) observed in the elution fraction, no targeted compounds were detected in non-spiked Evian water. The

The polymerization route specificities for the production of miniaturized molecularly imprinted polymers in capillaries or chip channels such as open tubular, packed

recoveries of 100% with a SD of 8% on the MIP and of 64% with a SD of 11% on the NIP. To 

Synthesis and Characterization of Molecularly Imprinted Polymers for the Selective Extraction of Carbamazepine and Analogs from Human Urine Samples... 13