Surface-imprinted, thermosensitive, core-shell nanosphere for molecular recognition

Abstract

The D-glucose imprinted core-shell nanosphere with an average size of ≈60 to 80 nm showed a significant preference for the binding of D-glucose than the non-imprinted core-shell nanosphere. Depending on temperature, the binding site in the shell with N-isopropylacrylamide oligomer underwent a significant change in binding affinity. In addition, the D-glucose imprinted core-shell nanosphere showed a two times higher affinity for D-glucose than L-glucose, suggesting chiral recognition of the binding site. The core-shell nanosphere reported here is a good biomimetic model system with a well-defined morphology, high surface area, and variable binding affinity through a change in temperature. © 2006 WILEY-VCH Verlag GmbH & Co. KGaA.