We
present an improved approach for the preparation of highly selective
and homogeneous molecular cavities in molecularly imprinted polymers
(MIPs) via the combination of surface imprinting and semi-covalent
imprinting. Toward that, first, a colloidal crystal mold was prepared
via the Langmuir–Blodgett (LB) technique. Then, human
chorionic gonadotropin (hCG) template protein was immobilized on the
colloidal crystal mold. Later, hCG derivatization with electroactive
functional monomers via amide chemistry was performed. In a final
step, optimized potentiostatic polymerization of 2,3′-bithiophene
enabled depositing an MIP film as the macroporous structure. This
synergistic strategy resulted in the formation of molecularly imprinted
cavities exclusively on the internal surface of the macropores, which
were accessible after dissolution of silica molds. The recognition
of hCG by the macroporous MIP film was transduced with the help of
electric transducers, namely, extended-gate field-effect transistors
(EG-FET) and capacitive impedimetry (CI). These readout strategies
offered the ability to create chemosensors for the label-free determination
of the hCG hormone. Other than the simple confirmation of pregnancy,
hCG assay is a common tool for the diagnosis and follow-up of ectopic
pregnancy or trophoblast tumors. Concentration measurements with these
EG-FET and CI-based devices allowed real-time measurements of hCG
in the range of 0.8–50 and 0.17–2.0 fM, respectively,
in 10 mM carbonate buffer (pH = 10). Moreover, the selectivity of
chemosensors with respect to protein interferences was very high.
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