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FRONT MATTER
Werner Kunz | i |
| Part A: Examples, Ion Properties and Concepts |
An Attempt of a General Overview
Werner Kunz and Roland Neueder | 3 |
Phospholipid Aggregates as Model Systems to Understand Ion-Specific Effects: Experiments and Models
Epameinondas Leontidis | 55 |
Modelling Specific Ion Effects in Engineering Science
Christoph Held and Gabriele Sadowski | 85 |
| Part B: Promising Experimental Techniques |
Linear and Non-linear Optical Techniques to Probe Ion Profiles at the Air–Water Interface
Hubert Motschmann and Patrick Koelsch | 119 |
X-Ray Studies of Ion Specific Effects
Padmanabhan Viswanath, Luc Girard, Jean Daillant, Luc Belloni, Olivier Spalla and Dmitri Novikov | 149 |
The Determination of Specific Ion Structure by Neutron Scattering and Computer Simulation
George W. Neilson, Philip E. Mason and John W. Brady | 171 |
Specific Ion Effects at the Air–Water Interface: Experimental Studies
Vincent S. J. Craig and Christine L. Henry | 191 |
| Part C: Newest Results from Theory and Simulation |
Ion Binding to Biomolecules
Mikael Lund, Jan Heyda and Pavel Jungwirth | 217 |
Ion-Specificity: From Solvation Thermodynamics to Molecular Simulations and Back
Joachim Dzubiella, Maria Fyta, Dominik Horinek, Immanuel Kalcher, Roland R. Netz and Nadine Schwierz | 231 |
HNC Calculations of Specific Ion Effects
Luc Belloni and Ioulia Chikina | 267 |
Modifying the Poisson–Boltzmann Approach to Model Specific Ion Effects
Mathias Boström, Eduardo R. A. Lima, Evaristo C. Biscaia, Jr., Frederico W. Tavares and Werner Kunz | 293 |
| Part D: Summary and Conclusions |
An Attempt of a Summary
Werner Kunz and Gordon J. T. Tiddy | 313 |
BACK MATTER
Werner Kunz | 321 |
| Back |
