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E-grāmata: Water at Interfaces: A Molecular Approach

(ICN2 & CSIC, Bellaterra (Barcelona), Spain)
  • Formāts: 258 pages
  • Izdošanas datums: 15-Apr-2014
  • Izdevniecība: CRC Press Inc
  • Valoda: eng
  • ISBN-13: 9781439861059
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Water at Interfaces: A Molecular ApproachPalielināt
  • Formāts: 258 pages
  • Izdošanas datums: 15-Apr-2014
  • Izdevniecība: CRC Press Inc
  • Valoda: eng
  • ISBN-13: 9781439861059
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Water, with its simple molecular structure, reveals a complex nature upon interaction with other molecules and surfaces. Water at Interfaces: A Molecular Approach provides a broad, multidisciplinary introduction to water at interfaces, focusing on its molecular characteristics. The book considers interfaces at different length scales from single water molecules to involvement of large numbers of water molecules, and from one-dimensional to three-dimensional interfaces. It begins with individual water molecules, describing their basic properties and the fundamental concepts that form the basis of this book.

The text explores the main interfaces involving pure and ion-free condensed (liquid and solid) water, including water vapor/liquid water, liquid/oil, and liquid/solid interfaces. It examines water molecules on ideal surfaceswell-ordered (crystalline) and defect-freecovering topics such as electronic structure using frontier orbitals and substrate-induced structuring. The book discusses the affinity of water to surfaces, hydrophobicity and hydrophilicity, emphasizing two extreme cases of affinity. It then addresses real solid surfaces where water/solid interfaces play a key role in actual working conditions, examining water purification, photocatalytic activity, corrosion and degradation, and atmospheric agents.

The final chapter deals with the interaction of water with the heterogeneous and complex surfaces of biomolecules, which can both influence the structure of the surrounding water and be modulated by the surrounding liquid. The author discusses simple to more complex biomolecules from peptides to proteins, nucleic acids, and membranes.
Preface ix
Abbreviations and Symbols xi
Chapter 1 An Introduction to Water
1(58)
1.1 Where Does Water Come From?
2(2)
1.2 Molecular Structure of Isolated Water Molecules
4(13)
1.2.1 A Nonlinear Polar Molecule
4(2)
1.2.2 Electronic Structure
6(7)
1.2.3 Vibrational Structure
13(4)
1.3 Hydrogen Bonding Off: van der Waals Interactions
17(4)
1.4 Hydrogen Bonding On: Condensed Water
21(27)
1.4.1 Water Clusters
21(5)
1.4.2 Solid Water
26(13)
1.4.3 Liquid Water
39(4)
1.4.4 Computer Water
43(5)
1.5 Elixir of Life
48(2)
1.6 Summary
50(9)
Chapter 2 Interfaces of Condensed Pure Water
59(28)
2.1 Liquid Water
59(13)
2.1.1 Vapor/Liquid Interfaces
60(9)
2.1.2 Water/Oil Interfaces
69(3)
2.2 Solid Water
72(10)
2.2.1 Solid/Vacuum Interfaces
72(3)
2.2.2 Solid/Liquid/Vapor Interfaces
75(7)
2.3 Summary
82(5)
Chapter 3 Water on Ideal Solid Surfaces
87(68)
3.1 Single Water Molecules and Clusters
87(12)
3.1.1 Single Water Molecules on Metallic Surfaces
87(9)
3.1.2 Small Clusters on Surfaces
96(3)
3.2 Substrate-Induced Structuring of Mono- and Bilayers
99(24)
3.2.1 Interfacial Registry
99(1)
3.2.2 Inorganic Surfaces with Hexagonal Symmetry
100(17)
3.2.3 Surfaces with Non-Hexagonal Symmetry
117(6)
3.3 Substrate-Induced Structuring of Water Multilayers
123(3)
3.3.1 Unpolarized Substrates
123(1)
3.3.2 Polarized Substrates: Electrofreezing
124(2)
3.4 Confined Water
126(9)
3.4.1 2D Confinement
126(5)
3.4.2 1D Confinement
131(3)
3.4.3 Electrochemical Nanopatterning
134(1)
3.5 When Ions Come on the Scene
135(10)
3.5.1 Ion Hydration
135(6)
3.5.2 Electrical Double Layer
141(2)
3.5.3 Dissolution of an Ionic Surface
143(2)
3.6 Summary
145(10)
Chapter 4 Hydrophobicity and Hydrophilicity
155(34)
4.1 Wetting and Contact Angle
155(1)
4.2 Hydrophobicity at Different Length Scales
156(14)
4.2.1 Clathrate Hydrates
157(1)
4.2.2 Extended Surfaces
158(5)
4.2.3 Superhydrophobicity
163(7)
4.3 Amphiphilicity
170(9)
4.3.1 Janus Particles
170(1)
4.3.2 Janus Surfaces
171(5)
4.3.3 Tunable Wetting
176(3)
4.4 The Role of Dipoles
179(3)
4.5 Summary
182(7)
Chapter 5 Water on Real Solid Surfaces
189(20)
5.1 Water Purification
189(5)
5.2 Water Splitting
194(2)
5.3 Atmospheric Agents
196(4)
5.4 Capillary Adhesion
200(2)
5.5 Water Desorption in Vacuum Systems
202(2)
5.6 Summary
204(5)
Chapter 6 Water/Biomolecule Interfaces
209(22)
6.1 Is Water a Biomolecule?
209(2)
6.2 Proteins
211(9)
6.2.1 Water-Peptide Interactions
211(2)
6.2.2 Hydrophobic Forces and Hydration
213(4)
6.2.3 Antifreeze and Ice Nucleating Proteins
217(3)
6.3 Nucleic Acids and DNA
220(2)
6.4 Biological Membranes
222(4)
6.4.1 Water/Phospholipid Interfaces
222(3)
6.4.2 Water Channels: Aquaporins
225(1)
6.5 Summary
226(5)
Appendix A Buoyancy and Surface Tension 231(2)
Appendix B Capillary Forces 233(2)
Appendix C Marangoni--Benard Patterns 235(2)
Index 237
Jordi Fraxedas obtained his Ph.D. from the University of Stuttgart, Germany. His thesis work was performed at the Max Planck Institute for Solid State Research under the supervision of Prof. M. Cardona. After a post-doctoral position at the European Synchrotron Radiation Facility in Grenoble (France) and an established researcher position at the European Laboratory for Particle Physics (CERN) in Geneva (Switzerland), he joined the Solid State Research Institute of Barcelona of the Spanish Research Council in 1995. He is now leading the Force Probe Microscopy and Surface Nanoengineering Group at the Catalan Institute of Nanoscience and Nanotechnology in Bellaterra (Barcelona). His research activity is focused on interfacial phenomena arising from the nanostructuration of surfaces and from the interaction of molecules with surfaces. He has co-authored more than 100 peer-reviewed scientific articles and published the book entitled Molecular Organic Materials: From Molecules to Crystalline Solids (Cambridge University Press, 2006).
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