Advance in Molecularly Imprinted Polymers

• Format: eBook
• Language: English
• Published: MDPI - Multidisciplinary Digital Publishing Institute 2023
• Subjects: Chemistry; Research & information: general; 4-vinylbenzoic acid; 5-fluorouracil; adsorption capacity; amphiphilic random copolymer; bee envenomation; bee venom phospholipase A2; ciprofloxacin; Coffea arabica; computational modelling; computational simulation; copper(II) ion template; drug delivery; dual functional monomer; epidermal growth factor receptor; fluorescence probes; functional macromolecular structures; heavy metals; hydrogels; imprinted polymer; intermolecular interaction; ion-imprinted polymer; ligand-free nanogels; light and heavy rare-earth metals; microspheres; Molecular Imprinted Polymers (MIP); molecular imprinting; molecular imprinting technique; Molecular Imprinting Technology (MIT); molecularly imprinted polymers; N-acylation; n/a; phenethylamines; quinic acid; rare earth metals; remote interaction of macromolecules; selective sorption; semi-covalent imprinting; separation; separation of rare-earth metals; solid phase extraction; solid phase synthesis; solid-phase extraction; sorption; synthetic antivenom; transdermal drug delivery; tyramine; upconversion nanoparticles
• Online Access: Open Access: DOAB: description of the publication; Open Access: DOAB, download the publication

 The "Advance in Molecularly Imprinted Polymers" Special Issue establishes a connection between original research papers and reviews that showcase recent progress in the formulation, creation, and wide-ranging utilization of molecularly imprinted polymers. The content within this Special Issue encompasses a range of subjects pertaining to the chemistry of MIPs, encompassing aspects such as molecular modeling, the utilization of novel monomers and innovative synthesis methods for crafting MIPs, the synthesis and application of ion-imprinted materials, the selective extraction of organic compounds, the preparation of sensors, and the implementation of MIPs in the field of medicine. The compilation of scientific papers presented in this collection demonstrates the diverse landscape of research within MIPs chemistry, ultimately leading to the enhancement of desired traits and the exploration of fresh potential applications for these materials.