|
|
ÇöÀçÀ§Ä¡ : Ȩ > µµ¼¸ñ·Ï > Àüüµµ¼¸ñ·Ï > ¹°¸®ÈÇÐ |
Surface Chemistry Essential |
|
|
ÁöÀºÀÌ |
: Birdi |
¹ßÇàÀÏ |
: 2014 ³â |
ISBN |
: 9781439871782 |
Á¤Çà°¡ |
: 0 ¿ø |
ÆäÀÌÁö |
: 285 ÆäÀÌÁö |
ÆÇÇà¼ö |
: 1 |
ÃâÆÇ»ç |
: CRC |
|
|
|
|
µµ¼¼Ò°³ |
Features
- Addresses the fundamental knowledge of surface science with a concise approach and solved examples
- Appeals to a broad audience including chemists and engineers working for the first time on surface-related problems
- Highlights the major topics in surface chemistry and correlates them with real-world applications
- Presents new developments such as alternatives to HLB (hydrophilic-lipophilic balance) with surfactant phase behavior
- Introduces surface science as it relates to industrial uses, such as drug delivery, waste management, and oil recovery
- Provides references for more advanced students and scientists from other fields (biology, geology, medicine, etc.)
Summary
Surface chemistry plays an important role in everyday life, as the basis for many phenomena as well as technological applications. Common examples range from soap bubbles, foam, and raindrops to cosmetics, paint, adhesives, and pharmaceuticals. Additional areas that rely on surface chemistry include modern nanotechnology, medical diagnostics, and drug delivery. There is extensive literature on this subject, but most chemistry books only devote one or two chapters to it. Surface Chemistry Essentials fills a need for a reference that brings together the fundamental aspects of surface chemistry with up-to-date references and data from real-world examples.
This book enables readers to better understand many natural phenomena and industrial processes. Mathematical treatment is mainly given as references to make the material accessible to individuals with a broader range of scientific backgrounds. The book begins by introducing basic considerations with respect to liquid and solid surfaces and describes forces in curved versus flat liquid surfaces. Chapters cover properties of surface active substances, such as surfactants and soaps; lipid films and Langmuir-Blodgett films; and adsorption and desorption on solid surfaces.
The author discusses processes involved in liquid–solid interface phenomena, which are utilized in washing, coatings, lubrication, and more, and colloid chemistry systems and related industrial applications such as wastewater treatment. The author also addresses bubbles, films, and foams and the principles of oil–water emulsion science, used in detergents, paints, and skin creams. The final chapter considers more complex applications, for example, food emulsions, scanning probe miscroscopy, the cement industry, and gas and oil recovery.
|
|
|
ÀúÀÚ ¹× ¿ªÀÚ ¼Ò°³ |
Professor Birdi has worked at Standard Oil of California; Lever Bros. in Copenhagen, Denmark; and the Danish Technical University, Lyngby, Denmark. Dr. Birdi was appointed research professor in 1985, and in 1990 (through 1999) he was appointed as a professor at the School of Pharmacy in Copenhagen, Denmark. Professor Birdi has been a consultant to various national and international industries. He has been a member of various chemical societies and organizing committees of national and international meetings related to surface science (advisory member, 1985–1987, of the ACS journal Langmuir). Professor Birdi is the author of some 100 papers and articles and has published diverse books, most recently Surface & Colloid Chemistry, CRC Press, 2010; and Introduction to Electrical Interfacial Phenomena, K.S. Birdi (Editor), 2010, CRC Press.
|
|
|
Â÷·Ê |
Introduction to Surfaces Chemistry Essentials What Is Surface Chemistry? Essential Surface Chemistry Concepts
Capillarity and Surface Forces in Liquids (Curved Surfaces) Introduction Origin of Surface Forces in Liquids Capillary Forces: Laplace Equation, and Liquid Curvature and Pressure (Mechanical Definition) Capillary Rise or Fall of Liquids (Capillary Forces) Soap Bubbles: Formation and Stability Measurement of Surface Tension of Liquids Typical Surface Tension Data of Liquids Appendix 2A: Effect of Temperature and Pressure on Surface Tension of Liquids (Corresponding States Theory of Liquids)
Surfactant (Soaps and Detergents) Solutions: Essential Surface Properties Introduction Surface Tension Properties of Aqueous Solutions Gibbs Adsorption Equation in Solutions Applications of Surface Active Agents Appendix 3B: Solubility of Organic Molecules in Water (A Surface Tension–Cavity Model Theory)
Monomolecular Lipid Films on Liquid Surfaces and Langmuir-Blodgett Films Introduction. Other Changes at Water Surfaces Due to Lipid Monolayers Effect of Lipid Monolayers on Evaporation Rates of Liquids Monolayers of Macromolecules at the Water Surface Langmuir-Blodgett (LB) Films (Transfer of Lipid Monolayers on Solids) Bilayer Lipid Membranes (BLMs) Diverse Applications
Solid Surfaces: Adsorption and Desorption of Different Substances Introduction Solid Surface Tension: Wetting Properties of Solid Surfaces. Contact Angle of Liquids on Solid Surfaces Measurements of Contact Angles at Liquid–Solid Interfaces Adsorption of Gases on Solid Surfaces Adsorption of Substances from Solution on Solid Surfaces Solid Surface Roughness (Degree of Roughness) Surface Tension of Solid Polymers Diverse Applications Appendix 5C: Gas Adsorption on Solid Surface—Essential Principle Theory
Wetting, Adsorption, and Cleaning Processes Introduction Oil Recovery Technology and Surface Forces Applications in Cleaning Processes Evaporation Rates of Liquid Drops Adhesion between Two Solid Surfaces (Glues)
Colloidal Dispersion Systems: Physicochemical Essential Properties Introduction Colloids Stability (DLVO Theory) Kinetics of Coagulation of Colloids Dispersions of Solid Particles in Fluids Applications of Colloid Systems
Gas Bubbles: Thin Liquid Films and Foams Introduction Soap Bubbles and Foams Applications of Foams and Bubbles
Emulsions, Microemulsions, and Lyotropic Liquid Crystals Introduction Formation of Emulsions (Oil and Water) Microemulsions Lyotropic Liquid Crystals Applications of Emulsions Emulsion Stability and Structure
Essential Surface and Colloid Chemistry in Science and Industry Introduction Food Emulsions (Milk Industry) Applications of Scanning Probe Microscopes to Surface and Colloid Chemistry Drug Delivery Design Building and Cement Industry Fracking Industry: Gas and Oil Recovery from Shale Deposits Other Industrial Applications
References Appendix: Common Fundamental Constants
|
|