E-Book, Englisch, 442 Seiten, Web PDF
Danielli / Rosenberg / Cadenhead Progress in Surface and Membrane Science
1. Auflage 2013
ISBN: 978-1-4832-1970-7
Verlag: Elsevier Science & Techn.
Format: PDF
Kopierschutz: 1 - PDF Watermark
Volume 4
E-Book, Englisch, 442 Seiten, Web PDF
ISBN: 978-1-4832-1970-7
Verlag: Elsevier Science & Techn.
Format: PDF
Kopierschutz: 1 - PDF Watermark
Progress in Surface and Membrane Science, Volume 4 covers the developments in the study of surface and membrane science. The book discusses waves at interfaces; recent investigations on the thickness of surface layers; and surface analysis by low-energy electron diffraction and Auger electron spectroscopy. The text also describes the anode electrolyte interface; the interactions of adsorbed proteins and polypeptides at interfaces; and peptide-induced ion transport in synthetic and biological membranes. The monolayer adsorption on crystalline surfaces is also considered. Chemists and metallurgists will find the book invaluable.
Autoren/Hrsg.
Weitere Infos & Material
1;Front Cover;1
2;Progress in Surface and Membrane Science;4
3;Copyright Page ;5
4;Table of Contents;6
5;CONTRIBUTORS;8
6;CONTENTS OF PREVIOUS VOLUMES;10
7;Chapter 1. Waves at Interfaces;16
7.1;I. INTRODUCTION;16
7.2;II. THE HYDRODYNAMIC THEORY OF WAVES AT INTERFACES;21
7.3;III. EXPERIMENTAL METHODS;54
7.4;IV. EXPERIMENTAL RESULTS;63
7.5;LIST OF PRINCIPAL SYMBOLS;70
7.6;REFERENCES;70
8;Chapter 2. Recent Investigations on the Thickness of Surface Layers;72
8.1;I. INTRODUCTION;72
8.2;II. DEFINITION OF SURFACE LAYER THICKNESS;73
8.3;III. STATISTICAL MECHANICAL CONSIDERATIONS;78
8.4;IV. SURFACE LAYER THICKNESS AND THE THERMODYNAMICS OF SURFACE PHENOMENA;88
8.5;V. DETERMINATION OF THE MINIMAL POSSIBLE THICKNESS OF SURFACE LAYERS FROM EXPERIMENTAL DATA;96
8.6;VI. OPTICAL METHODS FOR THE STUDY OF SURFACE LAYER THICKNESS;110
8.7;VII. SURFACE LAYER THICKNESS NEAR THE CRITICAL POINT;120
8.8;REFERENCES;127
9;Chapter 3. Surface Analysis by Low-Energy Electron Diffraction and Auger Electron Spectroscopy;130
9.1;I. INTRODUCTION;131
9.2;II. BASIC CONCEPTS;136
9.3;III. EXPERIMENTAL APPROACH;174
9.4;IV. LIMITATIONS AND VERSATILITY OF EXPERIMENTAL TECHNIQUES;184
9.5;V. APPLICATIONS;194
9.6;VI. PROSPECTUS;237
9.7;BIBLIOGRAPHY;239
9.8;REFERENCES;240
10;Chapter 4. The Anode Electrolyte Interface;246
10.1;I. INTRODUCTION;246
10.2;II. ASPECTS OF DOUBLE LAYER STRUCTURE;248
10.3;III. SEMICONDUCTOR-ELECTROLYTE INTERFACE;265
10.4;IV. METAL ANODE–ELECTROLYTE INTERFACE;282
10.5;REFERENCES;307
11;Chapter 5. Interactions of Adsorbed Proteins and Polypeptides at Interfaces;314
11.1;I. INTRODUCTION;314
11.2;II. FORMATION AND CHARACTERIZATION OF POLYPEPTIDE AND PROTEIN SURFACE FILMS;318
11.3;III. SURFACE EFFECT ON ENZYMIC ACTIVITY;356
11.4;REFERENCES;361
12;Chapter 6. Peptide-lnduced Ion Transport in Synthetic and Biological Membranes;366
12.1;I. INTRODUCTION;366
12.2;II. RELATIONSHIP OF ION TRANSPORT TO ENERGY TRANSDUCTION;367
12.3;III. INFLUENCE OF THE ENERGY STATE ON CATION RESPONSES IN MITOCHONDRIAL MEMBRANES;372
12.4;IV. MECHANISM OF PEPTIDE-INDUCED CATION TRANSPORT IN NATURAL AND SYNTHETIC MEMBRANES;379
12.5;REFERENCES;389
12.6;NOTE ADDED IN PROOF;390
13;Chapter 7. Monolayer Adsorption on Crystalline Surfaces;392
13.1;I. HISTORICAL SURVEY OF ADSORPTION;392
13.2;II. CURRENT THEORIES OF MONOLAYER ADSORPTION;401
13.3;III. ISOENERGETIC AND HOMOTATTIC ADSORBENTS;418
13.4;IV. ADSORPTION ISOTHERMS OF SIMPLE MOLECULES ON EXFOLIATED GRAPHITE;426
13.5;REFERENCES;429
14;AUTHOR INDEX;432
15;SUBJECT INDEX;443
