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Progress in surface and membrane science. Volume 14 /
Progress in Surface and Membrane Science, Volume 14 covers the advances in the study of surface and membrane science. The book discusses statistical thermodynamics of monolayer adsorption from gas and liquid mixtures on homogeneous and heterogeneous solid surfaces; and the structure of the boundary...
| Clasificación: | Libro Electrónico |
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| Otros Autores: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York ; London :
Academic Press,
1981.
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| Temas: | |
| Acceso en línea: | Texto completo Texto completo |
Tabla de Contenidos:
- Front Cover; Progress in Surface and Membrane Science; Copyright Page; Table of Contents; CONTRIBUTORS; CONTENTS OF RECENT VOLUMES; CHAPTER 1. STATISTICAL THERMODYNAMICS OF MONOLAYER ADSORPTION FROM GAS AND LIQUID MIXTURES ON HOMOGENEOUS AND HETEROGENEOUS SOLID SURFACES; I. GENERAL CONSIDERATIONS; II. LOCALIZED ADSORPTION OF GASES ON SOLIDS; III. MOBILE ADSORPTION OF GASES ON SOLIDS; IV. PARTIALLY MOBILE ADSORPTION OF GASES ON SOLIDS; V. ADSORPTION FROM LIQUID MIXTURES ON SOLIDS; VI. APPROXIMATE MODELS FOR ADSORPTION OF MIXTURES WITH LATERAL INTERACTIONS; REFERENCES.
- CHAPTER 2. STRUCTURE OF THE BOUNDARY LAYERS OF LIQUIDS AND ITS INFLUENCE ON THE MASS TRANSFER IN FINE PORESI. THEORETICAL CONSIDERATION; II. STRUCTURE AND PROPERTIES OF THE BOUNDARY LAYERS OF LIQUIDS; III. MASS TRANSFER IN FINE PORES; IV. CONCLUSION; References; CHAPTER 3. COUPLING OF IONIC AND NONELECTROLYTE FLUXES IN ION SELECTIVE MEMBRANES; I. INTRODUCTION; II. GENERAL CONSIDERATION OF THE COUPLING EFFECT OF IONIC AND NONELECTROLYTE FLUXES IN A MEMBRANE POTENTIAL FROM THE VIEW-POINT OF THE THERMODYNAMICS OF IRREVERSIBLE PROCESSES.
- Iii. effect of ionic and solvent fluxes coupling in the potential of a membrane with fixed chargesiv. effect of coupling of fluxes in a membrane potential for a system with specifically interacting neutral and ionic components; v. conclusions; references; chapter 4. electrocatalytic properties of metalloporphins at the interface; i. introduction; ii. electrophysical and catalytic properties of metalloporphins; iii. kinetics and mechanism of oxygen electroreduction on metal-loporphins; iv. the use of organic complexes of metals for creating gasdiffusion electrodes.
- v. ELECTROCHEMICAL REACTIONS OF HYDROGEN PEROXIDE AND OTHER ELECTROCATALYTIC REACTIONSREFERENCES; CHAPTER 5. ADSORPTION FROM BINARY GAS AND LIQUID PHASES; 1. INTRODUCTION; II. CONCEPTS OF EXCESS AND ABSOLUTE ADSORPTION; III. THERMODYNAMICS OF THE ADSORPTION OF SOLUTIONS; IV. ADSORPTION AT DIFFERENT INTERFACES; V. PREDICTION OF THE ADSORPTION OF MIXTURES FROM THE ADSORPTION PROPERTIES OF PURE COMPONENTS; VI. DETERMINATION OF THE SPECIFIC SURFACE AREA BY THE METHOD BASED ON ADSORPTION FROM SOLUTIONS; REFERENCES; CHAPTER 6. PHASE TRANSITIONS IN TWO-DIMENSIONAL AMPHlPHILIC SYSTEMS.
- I. INTRODUCTIONII. BILAYERS; III. MONOLAYERS; IV. THEORETICAL MODELS; V. CONCLUSION; References; CHAPTER 7. THE WETTABILITY OF SOLIDS BY LIQUID METALS; I. INTRODUCTION; II. GENERAL LAWS OF THE WETTING OF SOLIDS BY LIQUIDS. WETTABILITY BY LIQUID METALS; III. METHODS OF MEASURING THE WETTABILITY OF A SOLID BODY BY A LIQUID METAL; IV. THE WETTABILITY OF DIFFERENT CLASSES OF SOLIDS BY LIQUID METALS; V. CONCLUSION; References; INDEX.