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Describes new developments in the field, the predictive theory now evolving, and the practical ramifications for a range of applications.
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Describes new developments in the field, the predictive theory now evolving, and the practical ramifications for a range of applications.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 382
- Erscheinungstermin: 1. April 2010
- Englisch
- Abmessung: 250mm x 175mm x 25mm
- Gewicht: 839g
- ISBN-13: 9780521896009
- ISBN-10: 0521896002
- Artikelnr.: 28244948
- Verlag: Cambridge University Press
- Seitenzahl: 382
- Erscheinungstermin: 1. April 2010
- Englisch
- Abmessung: 250mm x 175mm x 25mm
- Gewicht: 839g
- ISBN-13: 9780521896009
- ISBN-10: 0521896002
- Artikelnr.: 28244948
Barry W. Ninham, a pioneer of modern theory describing molecular forces, interactions, and self assembly, is currently Professor Emeritus of the Department of Applied Mathematics at the Australian National University (ANU). He has been an active researcher for over 40 years, over which time he has authored or co-authored 7 books and more than 400 technical papers. He has received numerous awards, including the Ostwald Award of the German Chemical Society (2005) and the SIS Nestle-Mittal Award (2004), and, in 2008, ANU created the Barry Ninham Chair of Natural Sciences Award to recognize his contributions.
Part I. Molecular Forces: 1. Reasons for the enquiry
2. Different approaches to, and different kinds of molecular forces
3. Electrostatic forces in electrolytes in outline
4. The balance of forces
5. Quantum mechanical forces in condensed media
6. The extension of the Lifshitz theory to include electrolytes and Hofmeister effects
7. Specific ion effects
8. Effects of dissolved gas and other solutes on hydrophobic interactions
Part II. Self Assembly: 9. Self assembly: overview
10. Self assembly in theory and practice
11. Bicontinuous phases and other structures: forces at work in biological systems
12. Emulsions and microemulsions
13. Forces at work: a miscellany of issues.
2. Different approaches to, and different kinds of molecular forces
3. Electrostatic forces in electrolytes in outline
4. The balance of forces
5. Quantum mechanical forces in condensed media
6. The extension of the Lifshitz theory to include electrolytes and Hofmeister effects
7. Specific ion effects
8. Effects of dissolved gas and other solutes on hydrophobic interactions
Part II. Self Assembly: 9. Self assembly: overview
10. Self assembly in theory and practice
11. Bicontinuous phases and other structures: forces at work in biological systems
12. Emulsions and microemulsions
13. Forces at work: a miscellany of issues.
Part I. Molecular Forces: 1. Reasons for the enquiry
2. Different approaches to, and different kinds of molecular forces
3. Electrostatic forces in electrolytes in outline
4. The balance of forces
5. Quantum mechanical forces in condensed media
6. The extension of the Lifshitz theory to include electrolytes and Hofmeister effects
7. Specific ion effects
8. Effects of dissolved gas and other solutes on hydrophobic interactions
Part II. Self Assembly: 9. Self assembly: overview
10. Self assembly in theory and practice
11. Bicontinuous phases and other structures: forces at work in biological systems
12. Emulsions and microemulsions
13. Forces at work: a miscellany of issues.
2. Different approaches to, and different kinds of molecular forces
3. Electrostatic forces in electrolytes in outline
4. The balance of forces
5. Quantum mechanical forces in condensed media
6. The extension of the Lifshitz theory to include electrolytes and Hofmeister effects
7. Specific ion effects
8. Effects of dissolved gas and other solutes on hydrophobic interactions
Part II. Self Assembly: 9. Self assembly: overview
10. Self assembly in theory and practice
11. Bicontinuous phases and other structures: forces at work in biological systems
12. Emulsions and microemulsions
13. Forces at work: a miscellany of issues.