Theoretical and Computational Strategies for the Study of the Molecular Imprinting Process and Polymer Performance

Overview

Journal Adv Biochem Eng Biotechnol

Specialties Biochemistry
Biotechnology

Date 2015 Mar 20

PMID 25786710

Citations 3

Authors

Ian A Nicholls

Swapnil Chavan

Kerstin Golker

Bjorn C G Karlsson

Gustaf D Olsson

Annika M Rosengren

Subramanian Suriyanarayanan

Jesper G Wiklander

Affiliations

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Abstract

The development of in silico strategies for the study of the molecular imprinting process and the properties of molecularly imprinted materials has been driven by a growing awareness of the inherent complexity of these systems and even by an increased awareness of the potential of these materials for use in a range of application areas. Here we highlight the development of theoretical and computational strategies that are contributing to an improved understanding of the mechanisms underlying molecularly imprinted material synthesis and performance, and even their rational design.

Citing Articles

Computational and Experimental Comparison of Molecularly Imprinted Polymers Prepared by Different Functional Monomers-Quantitative Parameters Defined Based on Molecular Dynamics Simulation.

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An Update on Molecularly Imprinted Polymer Design through a Computational Approach to Produce Molecular Recognition Material with Enhanced Analytical Performance.

Suryana S, Mutakin , Rosandi Y, Hasanah A Molecules. 2021; 26(7).

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Application of Chemometrics in Biosensing: A Review.

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