Concentrated reverse micelles in a random graft block copolymer system : structure and in-situ synthesis of silver nanoparticles

The structure and rheological properties of a poly(dimethylsiloxane)-graft-poly(oxyethylene) copolymer at high concentrations in block-selective solvents were studied by small-angle X-ray scattering (SAXS) and rheometry. Analysis of SAXS data indicates that quasispherical, reverse micellar aggregate...

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Bibliographic Details
Published in:Colloid and polymer science 2007-03, Vol.285 (6), p.673-680
Main Authors: RODRIGUEZ-ABREU, Carlos, LAZZARI, Massimo, VARADE, Dharmesh, KANEKO, Masaya, ARAMAKI, Kenji, LOPEZ QUINTELA, Manuel Arturo
Format: Article
Language:English
Subjects:
Aggregates
Applied sciences
Block copolymers
Copolymers
Exact sciences and technology
Inorganic and organomineral polymers
Nanoparticles
Physicochemistry of polymers
Properties and characterization
SAXS
Silver
Solvents
Synthesis
Viscoelasticity
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Summary:The structure and rheological properties of a poly(dimethylsiloxane)-graft-poly(oxyethylene) copolymer at high concentrations in block-selective solvents were studied by small-angle X-ray scattering (SAXS) and rheometry. Analysis of SAXS data indicates that quasispherical, reverse micellar aggregates (with no ordered packing) are present in concentrated solutions of the copolymer in nonpolar solvents, and that upon addition of water, the size of such aggregates increases due to the solubilization inside the micellar cores. The viscosity of concentrated polymer solutions increases exponentially as water is added, and finally, viscoelastic, gel-like behavior is found in the vicinity of the phase separation limit. It was found that small silver nanoparticles with an average diameter of [asymptotically =]3 nm can be synthesized inside the copolymer aggregates without the need of a reducing agent; namely, particles embedded in a viscoelastic matrix are obtained. The synthesis seems to follow first-order kinetics.[PUBLICATION ABSTRACT]
ISSN:0303-402X
1435-1536
DOI:10.1007/s00396-006-1612-6