Fundamentals of Soft Interfaces in Colloid and Surface Chemistry, Volume 37 explains and summarizes the fundamentals of soft interfaces and soft particles from a colloid and surface chemistry standpoint, bringing knowledge together into a single resource for the first time. The book provides detailed mathematical descriptions of colloidal and interfacial systems, with a particular emphasis on ionic, electrokinetic, and electrostatic phenomena. The author covers the most recent theoretical advances in the field of electrostatic interactions between soft interfaces, electrophoresis,…mehr
Fundamentals of Soft Interfaces in Colloid and Surface Chemistry, Volume 37 explains and summarizes the fundamentals of soft interfaces and soft particles from a colloid and surface chemistry standpoint, bringing knowledge together into a single resource for the first time. The book provides detailed mathematical descriptions of colloidal and interfacial systems, with a particular emphasis on ionic, electrokinetic, and electrostatic phenomena. The author covers the most recent theoretical advances in the field of electrostatic interactions between soft interfaces, electrophoresis, diffusiophoresis, gel electrophoresis of soft particles including ionic size effects, ion-partitioning effects, and the effects of hydrodynamic slip on hydrophobic surfaces. This book will help readers by providing a range of approximate analytic formulas which can be used to interpret various interfacial phenomena of soft interfaces and analyze experimental data in various fields. It is written for graduate students and researchers chiefly in chemistry but also chemical engineering, physics, and materials science.
Hiroyuki Ohshima is Professor Emeritus at the Tokyo University of Science, Japan. He received the B.S. (1968), M.S. (1970), and Ph.D. (1974) degrees in physics from the University of Tokyo. He spent his post-doc study at University of Melbourne, Australia (1981-1983), State University of New York at Buffalo, USA (1983-1984), and University of Utah, USA (1984-1985). He has worked at the Tokyo University of Science, Japan since 1985. He was previously a Professor of Pharmaceutical Sciences at the Tokyo University of Science (1994-2012) and is now a Professor Emeritus and a Visiting Professor. He is the author of Theory of Colloid and Interfacial Electric Phenomena (Elsevier, 2006) and Biophysical Chemistry of Biointerfaces (Wiley, 2010). He edited Electrical Phenomena at Interfaces and Biointerfaces (Wiley, 2012) and Encyclopedia of Biocolloid and Biointerface Science (Wiley, 2016). He co-edited Electrical Phenomena at Interfaces. 2e (Marcel Dekker, 1998) and Colloid and Interface Science in Pharmaceutical Research and Development (Elsevier, 2014). He is also the author or co-author of over 400 book chapters and journal publications, reflecting his research interests in colloid and interface science. He was an Editor of the journal Colloids and Surfaces B: Biointerfaces (1994-2012, Elsevier) and currently he is an Associate Editor of Colloid and Polymer Science (2002-present, Springer). In 2016, Ohshima was awarded the 29th Khwarizmi International Award by the Iranian Research Organization for Science and Technology for his contribution to the theory of colloid and interfacial electric phenomena. In 2017, he was selected as one of Asia's top 100 scientists for 2017 (The Asian Scientist Magazine, June 2017). In 2022, he was awarded Fellow of Japan Oil Chemists' Society. On January 13, 2021, the layman's summary of Ohshima's research article:?Gel Electrophoresis of a Soft Particle (Adv. Colloid Interface Sci., 271, 101977, 2019)?was published on the Atlas of Science website (https://atlasofscience.org/soft-particle-gel-electrophoresis/).
Inhaltsangabe
Part I: Charge and potential at soft interfaces 1. Poisson-Boltzmann equation for a potential distribution around a charged surface 2. Effects of ionic size: modified Poisson-Boltzmann equation 3. Ion size effect on charge and potential relationship 4. Discrete charge effect Part II: Interaction between two colloidal particles 5. Electrostatic interaction between two hard particles 6. Ionic size effect on the electrostatic interaction between two particles 7. Electrostatic Interaction between two soft particles 8. van der Waals interaction between two particles 9. DLVO theory of colloid stability 10. Non-DLVO interactions 11. Total interaction energy between two polymer-coated particles Part III: Electrokinetics of soft particles 12. Electrophoresis: motion of colloidal particles in an electric field 13. General theory of electrophoresis of soft particles 14. Electrophoresis of a soft particle: Analytic approximations 15. Effects of hydrodynamic liquid slip-on hydrophobic surfaces 16. Transient electrophoresis and dynamic electrophoresis 17. Gel electrophoresis: electrophoresis of colloidal particles in a polymer gel medium 18. Gel electrophoresis of a soft particle: Analytic approximations 19. Diffusiophoresis: motion of colloidal particles in an electrolyte concentration gradient 20. Diffusiophoresis of soft particles Part IV: Ion transport and ion adsorption at soft interfaces 21. Membrane transport with time delay 22. Membrane potential 23. Ion-adsorption effect on the interfacial tension at soft interfaces
Part I: Charge and potential at soft interfaces 1. Poisson-Boltzmann equation for a potential distribution around a charged surface 2. Effects of ionic size: modified Poisson-Boltzmann equation 3. Ion size effect on charge and potential relationship 4. Discrete charge effect Part II: Interaction between two colloidal particles 5. Electrostatic interaction between two hard particles 6. Ionic size effect on the electrostatic interaction between two particles 7. Electrostatic Interaction between two soft particles 8. van der Waals interaction between two particles 9. DLVO theory of colloid stability 10. Non-DLVO interactions 11. Total interaction energy between two polymer-coated particles Part III: Electrokinetics of soft particles 12. Electrophoresis: motion of colloidal particles in an electric field 13. General theory of electrophoresis of soft particles 14. Electrophoresis of a soft particle: Analytic approximations 15. Effects of hydrodynamic liquid slip-on hydrophobic surfaces 16. Transient electrophoresis and dynamic electrophoresis 17. Gel electrophoresis: electrophoresis of colloidal particles in a polymer gel medium 18. Gel electrophoresis of a soft particle: Analytic approximations 19. Diffusiophoresis: motion of colloidal particles in an electrolyte concentration gradient 20. Diffusiophoresis of soft particles Part IV: Ion transport and ion adsorption at soft interfaces 21. Membrane transport with time delay 22. Membrane potential 23. Ion-adsorption effect on the interfacial tension at soft interfaces
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