Description
Hydrophobic Surfaces reviews the studies of solid/liquid interfaces by measurements of heats of immersion, focusing on the important phenomena controlling liquid/solid interactions.
This book discusses the effect of dipole moment, hydrogen-bonding, and acidic or basic character of liquid, including the role of adsorbable species. The nature of the solid surface, electric field, acidic or basic properties, and ability to form hydrogen bonds are likewise elaborated in detail.
This text also stresses that polytetrafluoroethylene surfaces have a few hydrophilic sites that carbon blacks vary widely and significantly in the relative number of hydrophobic and hydrophilic sites.
This publication is beneficial to students and researchers conducting work on hydrophobic solid/liquid interfaces.
Chapter
Introduction
pp.:
16 – 20
Chapter 1. Hydrophobic Surfaces
pp.:
20 – 47
Chapter 2. Modification of the Clay Surface by Pyridine-Type Compounds
pp.:
47 – 53
Chapter 3. Adsorption of Polar Molecules on Alkali-Fluorides
pp.:
53 – 63
Chapter 4. Influence of Chemisorbed Oxygen in Adsorption onto Carbon from Aqueous Solution
pp.:
63 – 74
Chapter 5. Two-Dimensional Critical Behavior of Rare Gases Adsorbed on Graphitized Carbon Black
pp.:
74 – 80
Chapter 6. Force Constants for Molecular Interactions Involving Hydrophobic Surfaces
pp.:
80 – 92
Chapter 7. Adsorption Hysteresis for Alcohols in Porous Vycor
pp.:
92 – 98
Chapter 8. The Effect of Irreversibly Adsorbed Water on the Character of Thorium Oxide Surfaces
pp.:
98 – 107
Chapter 9. Adsorption Properties of Hydrophobic Surfaces
pp.:
107 – 120
Chapter 10. Adsorption on Low-Energy Surfaces: Hexane and Octane Adsorption on Polytetrafluoroethylene
pp.:
120 – 126
Chapter 11. Hydrophilic Oxygen Complexes on Activated Graphon
pp.:
126 – 136
Chapter 12. Physical Adsorption Behavior of Molecular Solids
pp.:
136 – 143
Chapter 13. Improved Stability and Film Properties of Emulsion Coatings through Reversed Encapsulation
pp.:
143 – 152
Chapter 14. Adsorption of Methylcellulose on Polystyrene Latexes
pp.:
152 – 158
Chapter 15. Monolayer Studies
pp.:
158 – 164
Chapter 16. The Heat of Wetting and Immersional Swelling of Charcoal
pp.:
164 – 170
Chapter 17. Calculation of Work of Adhesion by Pair Potential Summation
pp.:
170 – 183
Chapter 18. Structural Properties of the Silver Iodide-Aqueous Solution Interface
pp.:
183 – 191
Chapter 19. The Adsorption of Toluene Vapor on Water Surfaces
pp.:
191 – 199
Chapter 20. Adsorption of n-Alkanols at the Air/Aqueous Solution Interface
pp.:
199 – 208
Chapter 21. Adsorption of Normal Alkanes on Hg: Experimental Check of Gibbs Adsorption Equation and Theoretical Contact Potential
pp.:
208 – 220
Chapter 22. Kinetics of Wetting of Surfaces by Polymer Melts
pp.:
220 – 224
Chapter 23. Hydrophobicity Control of Surfaces by Hydrolytic Adsorption
pp.:
224 – 234
Chapter 24. Effect of Temperature on the Wettability of Low-Energy Surfaces
pp.:
234 – 242
SUBJECT INDEX
pp.:
242 – 248
Hydrophobic Surfaces
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