Structure Formation in Solution

Ionic Polymers and Colloidal Particles

Structure Formation in Solution

Ionic Polymers and Colloidal Particles

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This book is designed to critically review experimental findings on ionic polymers and colloidal particles and to prove a theoretical framework based on the Poisson-Boltzmann approach. Structure formation in ionic polymer solutions has attracted attention since the days of H. Staudinger and J. D. Bernal. An independent study on ionic colloidal dispersions with microscopy provided a compelling evidence of structure formation. Recent technical developments have made it possible to accumulate relevant information for both ionic polymers and colloidal particles in dilute systems. The outstanding phenomenon experimentally found is microscopic inhomogeneity in the solute distribution in macroscopically homogeneous systems. To account for the observation, the present authors have invoked the existence of the counterion-mediated attraction between similarly charged solute species, in addition to the widely accepted electrostatic repulsion.

1;Contents;5 2;1 Introduction;9 2.1;1.1 Macroionic Systems and the Scope of the Book;9 2.2;1.2 Principles for Structure Analysis on Macroionic Systems;11 2.3;1.3 Forces between Molecules;30 2.4;References;36 3;2 Effective Interactions between Macroions 1;38 3.1;2.1 Introductory Remarks;38 3.2;2.2 Mean Field Description;39 3.3;2.3 Debye-Hückel Theory of Strong Electrolytes;42 3.4;2.4 DLVO Theory;52 3.5;2.5 Summary;70 3.6;References;72 4;3 Dilute Solutions of Flexible and Spherical Ionic Polymers;74 4.1;3.1 Introductory Remarks;74 4.2;3.2 Scattering Study of Dilute Solutions of Ionic Polymers;81 4.3;3.3 Recent Progress and Summary;113 4.4;References;122 5;4 Colloidal Dispersions;125 5.1;4.1 Introductory Remarks;125 5.2;4.2 Investigation by Optical Methods;135 5.3;4.3 Investigation by Ultra-Small-Angle X-Ray Scattering ( USAXS);167 5.4;4.4 Static and Dynamic Light Scattering, Neutron Scattering, and Dynamic X- Ray Scattering;181 5.5;4.5 Summary;194 5.6;References;199 6;5 Kikuchi-Kossel Line Analysis on Colloidal Crystals;202 6.1;5.1 Introductory Remarks;202 6.2;5.2 Kikuchi-Kossel Diffraction Images;203 6.3;5.3 Crystal Growth;208 6.4;5.4 Colloidal Alloy Crystals;213 6.5;5.5 Fine Structure of Kossel Lines;214 6.6;5.6 Summary;215 6.7;References;217 7;6 Effective Interactions between Macroions 2;219 7.1;6.1 Introductory Remarks;219 7.2;6.2 Reconstruction of a Linearized Mean Field Theory;222 7.3;6.3 Integral Representations for Free Energies of Macroionic Dispersions;248 7.4;6.4 Highly Charged Plates Immersed in an Electrolyte;257 7.5;6.5 Summary and Discussion;276 7.6;References;281 8;7 Viscometric Properties of Dilute Ionic Polymer Solutions and Colloidal Dispersions;283 8.1;7.1 Introductory Remarks;283 8.2;7.2 Viscosity of Dilute Solutions of Flexible Ionic Polymers;283 8.3;7.3 Viscosity of Dilute Dispersions of Ionic Colloidal Particles;288 8.4;7.4 Summary;296 8.5;References;298 9;8 Phase Transitions by Computer Simulation;299 9.1;8.1 Introductory Remarks;299 9.2;8.2 Phase Transition of Hard-Sphere Model (Alder Transition);300 9.3;8.3 Phase Transition by Yukawa Potential and DLVO Potential;302 9.4;8.4 Phase Transitions by Pair G-Potential;306 9.5;8.5 Summary;321 9.6;References;322 10;9 Further Problems of Interparticle Interaction;324 10.1;9.1 Introductory Remarks;324 10.2;9.2 Charge Density of Colloidal Particles and the DLVO Theory;325 10.3;9.3 DLVO Potential or Pair G-Potential?;325 10.4;9.4 Direct Measurements of Interparticle Potential;332 10.5;9.5 Comparison of Recent Computer Simulation with Experiments;342 10.6;9.6 Other Related Problems;343 10.7;References;346 11;Index;348
ISBN 9783540277156
Artikelnummer 9783540277156
Medientyp E-Book - PDF
Auflage 2. Aufl.
Copyrightjahr 2005
Verlag Springer-Verlag
Umfang 350 Seiten
Sprache Englisch
Kopierschutz Digitales Wasserzeichen