Description

Book Synopsis
Introduction to Soft Matter, Revised Edition: Synthetic and Biological Self-Assembling Materials provides an introduction to this exciting subject with chapters covering natural and synthetic polymers, colloids, surfactants, and liquid crystals highlighting the many and varied applications of these materials.

Trade Review
"It is quite amazing how well Hamley actually presents and explains the large number of examples." (CHOICE, April 2008)

Table of Contents
Preface to the Revised Edition.
Preface to the First Edition.

1. Introduction.

1.1Introduction.

1.2 Intermolecular Interactions.

1.3 Structural Organization.

1.4 Dynamics.

1.5 Phase Transitions.

1.6 Order Parameters.

1.7 Scaling Laws.

1.8 Polydispersity.

1.9 Experimental Techniques for Investigating Soft Matter.

1.10 Computer Simulation.

Further Reading.

2. Polymers.

2.1 Introduction.

2.2 Synthesis.

2.3 Polymer Chain Conformation.

2.4 Characterization.

2.5 Polymer Solutions.

2.6 Amorphous Polymers.

2.7 Crystalline Polymers.

2.8 Plastics.

2.9 Rubber.

2.10 Fibres.

2.11 Polymer Blends and Block Copolymers.

2.12 Dendrimers and Hyperbranched Polymers.

2.13 Polyelectrolytes.

2.14 Electronic and Opto-Electronic Polymers.

Further Reading.

Questions.

3. Colloids.

3.1 Introduction.

3.2 Types of Colloids.

3.3 Forces between Colloidal Particles.

3.4 Characterization of Colloids.

3.5 Charge Stabilization.

3.6 Steric Stabilization.

3.7 Effect of Polymers on Colloid Stability.

3.8 Kinetic Properties.

3.9 Sols.

3.10 Gels.

3.11 Clays.

3.12 Foams.

3.13 Emulsions.

3.14 Food Colloids.

3.15 Concentrated Colloidal Dispersions.

Further Reading.

Questions.

4. Amphiphiles.

4.1 Introduction.

4.2 Types of Amphiphile.

4.3 Surface Activity.

4.4 Surfactant Monolayers and Langmuir-Blodgett Films.

4.5 Adsorption at Solid Interfaces.

4.6 Micellization and the Critical Micelle Concentration.

4.7 Detergency.

4.8 Solubilization in Micelles.

4.9 Interfacial Curvature and Its Relationship to Molecular Structure.

4.10 Liquid Crystal Phases at High Concentrations.

4.11 Membranes.

4.12 Templated Structures.

Further Reading.

Questions.

5. Liquid Crystals.

5.1 Introduction.

5.2 Types of Liquid Crystals.

5.3 Characteristics of Liquid Crystal Phases.

5.4 Identification of Liquid Crystal Phases.

5.5 Orientational Order.

5.6 Elastic Properties.

5.7 Phase Transitions in Liquid Crystals.

Further Reading.

Questions.

6. Biological Soft Matter Science.

6.1 Introduction.

6.2 Lipid Membranes.

6.3 DNA.

6.4 Proteins.

6.5 Polysaccharides and Glycoproteins.

6.6 Macromolecular Assemblies.

Further Reading.

Questions.

Numerical Solutions to Questions.

Index.

Introduction to Soft Matter Revised Synthetic and

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A Hardback by Ian W. Hamley

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    View other formats and editions of Introduction to Soft Matter Revised Synthetic and by Ian W. Hamley

    Publisher: John Wiley & Sons Inc
    Publication Date: 11/09/2007
    ISBN13: 9780470516096, 978-0470516096
    ISBN10: 0470516097
    Also in:
    Chemistry Organic chemistry

    Description

    Book Synopsis
    Introduction to Soft Matter, Revised Edition: Synthetic and Biological Self-Assembling Materials provides an introduction to this exciting subject with chapters covering natural and synthetic polymers, colloids, surfactants, and liquid crystals highlighting the many and varied applications of these materials.

    Trade Review
    "It is quite amazing how well Hamley actually presents and explains the large number of examples." (CHOICE, April 2008)

    Table of Contents
    Preface to the Revised Edition.
    Preface to the First Edition.

    1. Introduction.

    1.1Introduction.

    1.2 Intermolecular Interactions.

    1.3 Structural Organization.

    1.4 Dynamics.

    1.5 Phase Transitions.

    1.6 Order Parameters.

    1.7 Scaling Laws.

    1.8 Polydispersity.

    1.9 Experimental Techniques for Investigating Soft Matter.

    1.10 Computer Simulation.

    Further Reading.

    2. Polymers.

    2.1 Introduction.

    2.2 Synthesis.

    2.3 Polymer Chain Conformation.

    2.4 Characterization.

    2.5 Polymer Solutions.

    2.6 Amorphous Polymers.

    2.7 Crystalline Polymers.

    2.8 Plastics.

    2.9 Rubber.

    2.10 Fibres.

    2.11 Polymer Blends and Block Copolymers.

    2.12 Dendrimers and Hyperbranched Polymers.

    2.13 Polyelectrolytes.

    2.14 Electronic and Opto-Electronic Polymers.

    Further Reading.

    Questions.

    3. Colloids.

    3.1 Introduction.

    3.2 Types of Colloids.

    3.3 Forces between Colloidal Particles.

    3.4 Characterization of Colloids.

    3.5 Charge Stabilization.

    3.6 Steric Stabilization.

    3.7 Effect of Polymers on Colloid Stability.

    3.8 Kinetic Properties.

    3.9 Sols.

    3.10 Gels.

    3.11 Clays.

    3.12 Foams.

    3.13 Emulsions.

    3.14 Food Colloids.

    3.15 Concentrated Colloidal Dispersions.

    Further Reading.

    Questions.

    4. Amphiphiles.

    4.1 Introduction.

    4.2 Types of Amphiphile.

    4.3 Surface Activity.

    4.4 Surfactant Monolayers and Langmuir-Blodgett Films.

    4.5 Adsorption at Solid Interfaces.

    4.6 Micellization and the Critical Micelle Concentration.

    4.7 Detergency.

    4.8 Solubilization in Micelles.

    4.9 Interfacial Curvature and Its Relationship to Molecular Structure.

    4.10 Liquid Crystal Phases at High Concentrations.

    4.11 Membranes.

    4.12 Templated Structures.

    Further Reading.

    Questions.

    5. Liquid Crystals.

    5.1 Introduction.

    5.2 Types of Liquid Crystals.

    5.3 Characteristics of Liquid Crystal Phases.

    5.4 Identification of Liquid Crystal Phases.

    5.5 Orientational Order.

    5.6 Elastic Properties.

    5.7 Phase Transitions in Liquid Crystals.

    Further Reading.

    Questions.

    6. Biological Soft Matter Science.

    6.1 Introduction.

    6.2 Lipid Membranes.

    6.3 DNA.

    6.4 Proteins.

    6.5 Polysaccharides and Glycoproteins.

    6.6 Macromolecular Assemblies.

    Further Reading.

    Questions.

    Numerical Solutions to Questions.

    Index.

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