The antibacterial drug ciprofloxacin (cfH) has been used to protect gold nanoparticles of two different mean diameters, 4 and 20 nm. The protection is complete with about 65 and 585 cfH molecules covering 4 and 15 nm particles, respectively. The nature of binding has been investigated by several analytical techniques. The nitrogen atom of the NH moiety of piperazine group binds on the gold surface, as revealed by voltammetric and spectroscopic studies. The cfH-adsorbed particles are stable in the dry state as well as at room temperature, and as a result, redispersion is possible. The rate of release of the drug molecule from the nanoparticles is more in the basic medium than in pure water, and the kinetics depend on the size of the particle; faster desorption is seen in smaller particles. The bound cfH is fluorescent, and this property could be used in biological investigations. This study shows that metal nanoparticles could be useful carriers for cfH and fluoroquinolone molecules. Most of the bound molecules could be released over an extended period of time.
Cyanoxyl persistent radicals can be used as chain-growth moderators of the statistical copolymerization of a variety of monomers. We report herein the preparation of fully sulfated lactose-based glycopolymers by cyanoxyl (.OC[triple bond]N)-mediated free-radical polymerization of acrylamide derivatized glycomonomers in good yield (60-80%) and low polydispersity (1.1 < M(w)/M(n) < 1.6). Prolongation of the activated partial thromboplastin time (aPTT) was observed, and structure-activity relationships were defined. Specifically, the anticoagulant effect varied in response to both polymer molecular weight and the density of pendant sulfated lactose units. Nonetheless, measured thrombin times were only modestly prolonged suggesting that the observed anticoagulant effect is not primarily related to direct thrombin inhibition.
A general, efficient and green method for the synthesis of dihydropyrimidinones is described under mild conditions employing low melting mixtures of L-(+)-tartaric acid and urea derivatives as a novel reaction medium. The melt plays a triple role: as solvent, as catalyst and as reactant, furnishing highly functionalized dihydropyrimidinones in good to excellent yields.
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