Please use this identifier to cite or link to this item:https://hdl.handle.net/20.500.12259/37862
Type of publication: research article
Type of publication (PDB): Straipsnis recenzuojamoje užsienio tarptautinės konferencijos medžiagoje / Article in peer-reviewed foreign international conference proceedings (P1d)
Field of Science: Chemija / Chemistry (N003)
Author(s): Maruška, Audrius;Kornyšova, Olga
Title: Molecular imprinting and molecular self-assembly techniques : design of new materials for nanochromatographic separations
Is part of: Nanotechnology: Development and Influence on the Society: Proceedings of the conference, Gdansk, 24-26 May 2007. Gdansk, Krakow : Impuls, 2008
Extent: p. 55-62
Date: 2008
Keywords: Molecular imprinting;Self assembly;Nanochromatographic separations
ISBN: 9788375870039
Abstract: The emergence of molecular imprinting has its roots in immunology. By the early 1930s, Breinl, Haurowitz and later Pauling proposed a theory explaining the diversity of antibody formation based on specific interactions with certain antigens. This theory was shown to be incorrect and the instructive antibody formation model was abandoned. Nevertheless, later this model was successfully applied by Mosbach and many others and laid the foundation for the molecular imprinting techniques. Molecular imprinting is a rapidly developing field, which takes the advantage of the nanoscale templating […]. It involves nanoscale self-organization of the matter and molecular recognition of imprinted and related molecules. Two general approaches to molecular imprinting exist: covalent and noncovalent imprinting of target molecules. The use of noncovalent interactions between the target molecule and the functional precursors of the solid polymer is more versatile. The noncovalent interactions in the self-assembly step and imprint formation closely mimic the recognition pattern observed in biological systems. Self-assembly process plays an important role for the arrangement of the interaction sites in the polymeric receptors synthesized. [...]
Internet: https://hdl.handle.net/20.500.12259/37862
Affiliation(s): Vytauto Didžiojo universitetas
Appears in Collections:Universiteto mokslo publikacijos / University Research Publications

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