Molecularly imprinted nanoreactors for regioselective huisgen 1,3-dipolar cycloaddition reaction

A molecularly imprinted polymer has been successfully utilized as nanoreactors for Huisgen 1,3-dipolar cycloaddition of azides and alkynes, leading to high product regioselectivity and kinetic acceleration. The MIP nanoreactors also showed remarkable selectivity toward the reactant structures, so that the "best fit" product was mostly amplified during the reaction. In contrast to previously reported regioselective MIPs, the present imprinted cavities bind reactants by means of only noncovalent molecular interactions, the same as that normally involved in biological systems. The results support the concept of drug "cloning" that further extends both the anti-idiotypic imprinting and in-cavity synthesis approaches into the modern drug discovery area.     

A polymer supported manganese catalyst useful as a superoxide dismutase mimic

Polymer supported manganese was synthesized via a template polymerization involving functional monomers to afford a catalyst with superoxide dismutase activity.     

A simple method for creating molecularly imprinted polymer-coated bacterial cellulose nanofibers

Molecularly imprinted polymer-coated bacterial cellulose nanofibers have been prepared by immersing solvent treated-bacterial cellulose into a dilute pre-polymerization mixture solution prior to the polymerization process. The quercetin-imprinted polymer coating bacterial cellulose (QIP-BC) nanofibers show discrete nanoparticles encapsulated along the BC nanofibers. The binding capacity of dried QIP-BC was approximately 3 mg per gram of the polymer. The obtained results indicated that QIP-BC nanofibers provided a three fold higher recognition ability for quercetin than quercetin-imprinted nanospheres. This technique can be easily used to combine two fascinating materials like BC nanofibers and molecularly imprinted polymers (MIPs) to afford promising polymer composites that are useful in various innovative applications in biomedical, pharmaceutical, and industrial sectors.