Your search keyword '"Silveira NP"' showing total 2 results

1. Silver nanoparticle-ionic silsesquioxane: a new system proposed as an antibacterial agent.

Author

Schneid AC, Roesch EW, Sperb F, Matte U, da Silveira NP, Costa TMH, Benvenutti EV, and de Menezes EW

Abstract

Spherical silver nanoparticles with an average size of ca. 5 nm were synthesized in aqueous medium using a charged silsesquioxane containing a quaternary ammonium group, the bridged 1,4-diazoniabicyclo[2.2.2]octane nitrate, as a stabilizer and size controller. For the first time this system was synthesized and applied as an antibacterial agent and its activity was confirmed with excellent results. The new system shows high stability, which can be confirmed by the unchanged UV-Vis band even one year later. The magnitude of the zeta-potential (ζ) (+24.7 mV) indicated electrostatic contribution for the silver nanoparticles stability and the signal showed that the nanoparticles have a positively charged surface. In vitro antibacterial tests were performed against E. coli, P. aeruginosa and S. aureus bacteria, and the minimum concentrations of silver in the nanoparticle form for complete inhibition of bacteria were 0.60, 1.1 and 2.0 μg mL -1 , respectively. These values are very low when compared to the previous reports, making this system very promising. The cytotoxicity assay showed that these silver nanoparticles are safe for mammalian cells at the studied concentrations.

Published

2014

2. Structure of self-organized diblock copolymer solutions in partially miscible solvents.

Author

Stepánek P, Tuzar Z, Kadlec P, Nallet F, and da Silveira NP

Abstract

A diblock copolymer dissolved in a mixture of partially miscible solvents creates a self-organized microemulsion with a morphology that depends on the numerous parameters of the system. We discuss one particular case of spherical particles (containing the minority solvent) forming a hard gel with cubic structure and demonstrate using high-resolution synchrotron scattering experiments that the self-organized solution has a BCC structure. After fitting one- and two-dimensional form factors we extract from the data the one- and two-dimensional structure factors, S(q) and S(q,phi). The experimental S(q) corresponds almost quantitatively, up to the 9th order Bragg peak, to that calculated numerically for a randomly-oriented, finite-size BCC crystal. S(q,phi) contains a large number of reflections that allow the structure to be identified more exactly as a twin BCC morphology with some imperfections. Examination of the dependence of the structural parameters on polymer concentration reveals that the dilution law predicted theoretically for the center-to-center distance of the spheres is confirmed experimentally while the size of the spherical objects does not follow theoretical predictions due to chain extension with increasing concentration.

Published

2010