Page 1
Page 1
img

Supramolecular Polymers/Polymeric Betains/Oligomers

The Advances in Polymer Science series remains an important venue for reviewing the latest and most interesting topics related to the field of polymers. This current volume is no exception. Although supramolecular chemistry, hybrid polymers, and polyelectrolytes have been popular topics in chemistry and materials research, this volume focuses on four main subtopics: cyclodextrin-based supramolecular polymers, liquid crystalline dendrimers and polypedes, polymeric betaines, and polyhedral oligomeric silsesquioxanes.

img

Smart Colloidal Materials

Smart Colloidal Materials Volume covers a broad field including the investigation of synthesis and properties of advanced temperature sensitive particles and their biomedical applications, drug delivery systems, foams, capsules, vesicles and gels, polyelectrolytes, nanoparticles surfactants and hybrid materials. … these volumes address issues that researchers actually struggle with when they are working on polymer surfaces and thin films and colloidal materials. … ideal for experienced researchers who need to catch up with these newer methods and trends. Terrifically useful volumes in the publisher’s series.

img

Polyelectrolytes and Nanoparticles

Guides chemists through demonstrations of synergistic effects between polyelectrolytes and nanoparticles. After a short introduction into the field of polyelectrolytes and polyelectrolyte characterization, the role of polyelectrolytes in the process of nanoparticle formation is discussed in more detail. However, polyelectrolytes can directly influence the growing of nanoparticles and also can stabilize the nanoparticles formed. Therefore, the nanoparticle formation in polyelectrolyte-modified template phases, e.g. microemulsions, is of growing interest. Finally, methods for characterization of the polyelectrolyte-modified nanoparticles are explained. The adsorption of polyelectrolytes can be detected by measuring the zeta potential at the nanoparticle surface by means of electrophoretic light scattering, acoustophoresis or streaming potential measurements.

img

Ionic Soft Matter : Modern Trends in Theory and Applications; Proceedings of the NATO Advanced Research Workshop on Ionic Soft Matter: Modern Trends in Theory and Application Lviv, Ukraine, 14-17 April, 2004

Consists of reviews of the experimental, theoretical and simulation studies on ionic criticality, polyelectrolytes, proton transport in fuel cell membranes, and the design of DNA arrays. This book deals with discussions of the fundamental and applied problems of important phenomena such as ion association, ion adsorption, ion solvation.

img

Forces, Growth and Form in Soft Condensed Matter : At the Interface between Physics and Biology

This volume comprises the proceedings of a NATO Advanced Study Institute held at Geilo, Norway, 24 March - 3 April 2003, the seventeenth ASI in a series held every two years since 1971. The objective of this ASI was to identify and discuss areas where synergism between modern physics, soft condensed matter and biology might be most fruitful. The main pedagogical approach was to have lecturers focussing on basic understanding of important aspects of the relative role of the various interaction- electrostatic, hydrophobic, steric, conformational, van der Waals etc. Soft condensed matter and the connection between physics and biology have been the themes of several earlier Geilo Schools. A return to these subjects thus allowed a fresh look and a possibility for defining new directions for research. Examples of soft materials, which were discussed at this ASI, included colloidal dispersions, gels, biopolymers and charged polymer solutions, polyelectrolytes, protein/membrane complexes, nucleic acids and their complexes. Indeed, most forms of condensed matter are soft and these substances are composed of aggregates and macromolecules, with interactions that are too weak and complex to form crystals spontaneously. A characteristic feature is that small external forces, slight perturbations in temperature, pressure or concentration, can all be enough to induce significant structural changes. Thermal fluctuations are almost by definition strong in soft materials and entropy is a predominant determinant of structure, so that disorder, slow dynamics and plastic deformation are the rule. Hence the phrase ‘soft condensed matter’ has been coined.

img

Analytical Ultracentrifugation of Polymers and Nanoparticles

Analytical ultracentrifugation (AUC) is a powerful method for the characterization of polymers, biopolymers, polyelectrolytes, nanoparticles, dispersions, and other colloidal systems. The method is able to determine the molar mass, the particle size, the particle density and interaction parameters like virial coefficients and association constants. Because AUC is also a fractionation method, the determination of the molar mass distribution, the particle size distribution, and the particle density distribution is possible. A special technique, the density gradient method, allows fractionating heterogeneous samples according to their chemical nature that means being able to detect chemical heterogeneity.

Results Per Page