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100   $a20050204d2005      uy         0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 00$aColloid science $eprinciples, methods and applications /$fedited by Terence Cosgrove
205   $a2nd ed.
210   $aOxford, UK ;$aAmes, Iowa $cBlackwell Pub.$d2005
215   $a1 online resource (399 p.)
300   $aDescription based upon print version of record.
311 08$a9781444320183 
311 08$a1444320181 
311 08$a9781405126731 
311 08$a1405126736 
320   $aIncludes bibliographical references and index.
327   $aColloid Science Principles, methods and applications; Contents; Preface; Introduction; Acknowledgements; List of Contributors; 1 An Introduction to Colloids; 1.1 Introduction; 1.2 Basic Definitions; 1.2.1 Concentration; 1.2.2 Interfacial Area; 1.2.3 Effective Concentrations; 1.2.4 Average Separation; 1.3 Stability; 1.3.1 Quiescent Systems; 1.3.2 Sedimentation or Creaming; 1.3.3 Shearing Flows; 1.3.4 Other Forms of Instability; 1.4 Colloid Frontiers; References; 2 Charge in Colloidal Systems; 2.1 Introduction; 2.2 The Origin of Surface Charge; 2.2.1 Ionisation of Surface Groups
327   $a2.2.2 Ion Adsorption2.2.3 Dissolution of Ionic Solids; 2.2.4 Isomorphous Substitution; 2.2.5 Potential Determining Ions; 2.3 The Electrochemical Double Layer; 2.3.1 The Stern-Gouy-Chapman (SGC) Model of the Double Layer; 2.3.2 The Double Layer at the Hg/Electrolyte Interface; 2.3.3 Specific Adsorption; 2.3.4 Interparticle Forces; 2.4 Electrokinetic Properties; 2.4.1 Electrolyte Flow; 2.4.2 Streaming Potential Measurements; 2.4.3 Electro-osmosis; 2.4.4 Electrophoresis; 2.4.5 Electroacoustic Technique; References; 3 Stability of Charge-stabilised Colloids; 3.1 Introduction
327   $a3.2 The Colloidal Pair Potential3.2.1 Attractive Forces; 3.2.2 Electrostatic Repulsion; 3.2.3 Effect of Particle Concentration; 3.2.4 Total Potential; 3.3 Criteria for Stability; 3.3.1 Salt Concentration; 3.3.2 Counter-ion Valency; 3.3.3 Zeta Potential; 3.3.4 Particle Size; 3.4 Kinetics of Coagulation; 3.4.1 Diffusion-limited Rapid Coagulation; 3.4.2 Interaction-limited Coagulation; 3.4.3 Experimental Determination of c.c.c.; 3.5 Conclusions; References; 4 Surfactant Aggregation and Adsorption at Interfaces; 4.1 Introduction; 4.2 Characteristic Features of Surfactants
327   $a4.3 Classification and Applications of Surfactants4.3.1 Types of Surfactants; 4.3.2 Surfactant Uses and Development; 4.4 Adsorption of Surfactants at Interfaces; 4.4.1 Surface Tension and Surface Activity; 4.4.2 Surface Excess and Thermodynamics of Adsorption; 4.4.3 Efficiency and Effectiveness of Surfactant Adsorption; 4.5 Surfactant Solubility; 4.5.1 The Krafft Temperature; 4.5.2 The Cloud Point; 4.6 Micellisation; 4.6.1 Thermodynamics of Micellisation; 4.6.2 Factors Affecting the CMC; 4.6.3 Structure of Micelles and Molecular Packing; 4.7 Liquid Crystalline Mesophases; 4.7.1 Definition
327   $a4.7.2 Structures4.7.3 Phase Diagrams; 4.8 Advanced Surfactants; References; 5 Microemulsions; 5.1 Introduction; 5.2 Microemulsions: Definition and History; 5.3 Theory of Formation and Stability; 5.3.1 Interfacial Tension in Microemulsions; 5.3.2 Kinetic Instability; 5.4 Physicochemical Properties; 5.4.1 Predicting Microemulsion Type; 5.4.2 Surfactant Film Properties; 5.4.3 Phase Behaviour; 5.5 Developments and Applications Temperature; 5.5.1 Microemulsions with Green and Novel Solvents; 5.5.2 Microemulsions as Reaction Media for Nanoparticles; References; 6 Emulsions; 6.1 Introduction
327   $a6.1.1 Definitions of Emulsion Type
330   $aColloidal systems are important across a range of industries, such as the food, pharmaceutical, agrochemical, cosmetics, polymer, paint and oil industries, and form the basis of a wide range of products (eg cosmetics & toiletries, processed foodstuffs and photographic film). A detailed understanding of their formation, control and application is required in those industries, yet many new graduate or postgraduate chemists or chemical engineers have little or no direct experience of colloids. Based on lectures given at the highly successful Bristol Colloid Centre Spring School, Colloid Scie
606   $aColloids
615  0$aColloids.
676   $a541/.345
701   $aCosgrove$b T$g(Terence)$0879122
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910808229203321
996   $aColloid science$91963223
997   $aUNINA