Physics and chemistry of interfaces

Physics and chemistry of interfaces

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Hauptverfasser: Butt, Hans-Jürgen 1961- (VerfasserIn), Graf, Karlheinz 1966- (VerfasserIn), Kappl, Michael 1963- (VerfasserIn)
Format: Buch
Sprache:English
Veröffentlicht: Weinheim WILEY-VCH 2011
Ausgabe:2., rev. and enl. ed., 4. reprint
Schriftenreihe:Physics textbook
Schlagworte:
Oberflächenphysik
Grenzflächenphysik
Grenzflächenchemie
Oberflächenchemie
Lehrbuch
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Datensatz im Suchindex

_version_ 1804143778249834496
adam_text Contents Preface XI 1 Introduction 1 2 Liquid surfaces 5 2.1 Microscopic picture of the liquid surface .................... 5 2.2 Surface tension ................................. 6 2.3 Equation of Young and Laplace ......................... 9 2.3.1 Curved liquid surfaces ......................... 9 2.3.2 Derivation of the Young-Laplace equation .............. 11 2.3.3 Applying the Young-Laplace equation ................. 12 2.4 Techniques to measure the surface tension ................... 13 2.5 The Kelvin equation ............................... 16 2.6 Capillary condensation ............................. 19 2.7 Nucleation theory ................................ 22 2.8 Summary .................................... 25 2.9 Exercises .................................... 26 3 Thermodynamics of interfaces 29 3.1 The surface excess ............................... 29 3.2 Fundamental thermodynamic relations ..................... 32 3.2.1 Internal energy and Helmholtz energy ................. 32 3.2.2 Equilibrium conditions ......................... 33 3.2.3 Location of the interface ........................ 34 3.2.4 Gibbs energy and definition of the surface tension ........... 35 3.2.5 Helmholtz surface energy, interfacial enthalpy, and Gibbs surface energy 36 3.3 The surface tension of pure liquids ....................... 37 3.4 Gibbs adsorption isotherm ........................... 39 3.4.1 Derivation ................................ 39 3.4.2 System of two components ....................... 40 3.4.3 Experimental aspects ........................... 41 3.4.4 The Marangoni effect .......................... 42 3.5 Summary .................................... 43 3.6 Exercises .................................... 44 j Contents The electric double layer 45 4.1 Introduction ................................... ^5 4.2 Poisson-Boltzmann theory of the diffuse double layer ............. 46 4.2.1 The Poisson-Boltzmann equation ................... 46 4.2.2 Planar surfaces ............................. 47 4.2.3 The full one-dimensional case ..................... 49 4.2.4 The Grahame equation ......................... 52 4.2.5 Capacity of the diffuse electric double layer .............. 53 4.3 Beyond Poisson-Boltzmann theory ....................... 54 4.3.1 Limitations of the Poisson-Boltzmann theory ............. 54 4.3.2 The Stern layer ............................. 55 4.4 The Gibbs free energy of the electric double layer ............... 57 4.5 Summary .................................... 58 4.6 Exercises .................................... 59 5 Effects at charged interfaces 61 5.1 Electrocapillarity ................................ 61 5.1.1 Theory ................................. 62 5.1.2 Measurement of electrocapillarity ................... 64 5.2 Examples of charged surfaces .......................... 65 5.2.1 Mercury ................................. 66 5.2.2 Silveriodide .............................. 67 5.2.3 Oxides ................................. 69 5.2.4 Mica .................................. 70 5.2.5 Semiconductors ............................. 71 5.3 Measuring surface charge densities ....................... 73 5.3.1 Potentiometric colloid titration ..................... 73 5.3.2 Capacitances .............................. 74 5.4 Electrokinetic phenomena: The zeta potential ................. 76 5.4.1 The Navier-Stokes equation ...................... 77 5.4.2 Electro-osmosis and streaming potential ................ 78 5.4.3 Electrophoresis and sedimentation potential .............. 80 5.5 Types of potentials ............................... 82 5.6 Summary .................................... 84 5.7 Exercises .................................... 84 6 Surface forces 85 6.1 Van der Waals forces between molecules .................... 85 6.2 The van der Waals force between macroscopic solids ............. 89 6.2.1 Microscopic approach ......................... 89 6.2.2 Macroscopic calculation — Lifshitz theory .............. 92 6.2.3 Surface energy and Hamaker constant ................. 96 6.3 Concepts for the description of surface forces ................. 98 6.3.1 The Derjaguin approximation ..................... 98 6.3.2 The disjoining pressure ......................... 101 6.4 Measurement of surface forces ......................... 101 Contents VII 6.5 The electrostatic double-layer force ...................... 103 6.5.1 General equations ............................ 103 6.5.2 Electrostatic interaction between two identical surfaces ........ 106 6.5.3 The DLVO theory ............................ 108 6.6 Beyond DLVO theory .............................. 110 6.6.1 The solvation force and confined liquids ................ 110 6.6.2 Non DLVO forces in an aqueous medium ............... 110 6.7 Steric and depletion interaction ......................... 113 6.7.1 Properties of polymers ......................... 113 6.7.2 Force between polymer coated surfaces ................ 114 6.7.3 Depletion forces ............................ 116 6.8 Spherical particles in contact .......................... 117 6.9 Summary .................................... 121 6.10 Exercises .................................... 122 7 Contact angle phenomena and wetting 125 7.1 Young s equation ................................ 125 7.1.1 The contact angle ............................ 125 7.1.2 Derivation ................................ 126 7.1.3 The line tension ............................. 128 7.1.4 Complete wetting and wetting transitions ............... 128 7.2 Important wetting geometries .......................... 130 7.2.1 Capillary rise .............................. 130 7.2.2 Particles in the liquid-gas interface .................. 131 7.2.3 Network of fibers ............................ 132 7.3 Measurement of the contact angle ....................... 133 7.3.1 Experimental methods ......................... 133 7.3.2 Hysteresis in contact angle measurements ............... 135 7.3.3 Surface roughness and heterogeneity .................. 137 7.4 Theoretical aspects of contact angle phenomena ................ 139 7.5 Dynamics of wetting and dewetting ...................... 141 7.5.1 Wetting ................................. 141 7.5.2 Dewetting ................................ 145 7.6 Applications ................................... 146 7.6.1 Flotation ................................ 146 7.6.2 Detergency ............................... 147 7.6.3 Microfluidics .............................. 148 7.6.4 Adjustable wetting ........................... 150 7.7 Summary .................................... 151 7.8 Exercises .................................... 152 8 Solid surfaces 153 8.1 Introduction ................................... 153 8.2 Description of crystalline surfaces ....................... 154 8.2.1 The substrate structure ......................... 154 VIH Contents 8.2.2 Surface relaxation and reconstruction ................. 155 8.2.3 Description of adsórbate structures ................... 158 8.3 Preparation of clean surfaces .......................... 158 8.4 Thermodynamics of solid surfaces ....................... 161 8.4.1 Surface stress and surface tension ................... 161 8.4.2 Determination of the surface energy .................. 164 8.4.3 Surface steps and defects ........................ 167 8.5 Solid-solid interfaces .............................. 169 8.6 Microscopy of solid surfaces .......................... 171 8.6.1 Optical microscopy ........................... 171 8.6.2 Electron microscopy .......................... 172 8.6.3 Scanning probe microscopy ...................... 174 8.7 Diffraction methods ............................... 177 8.7.1 Diffraction patterns of two-dimensional periodic structures ...... 177 8.7.2 Diffraction with electrons, X-rays, and atoms ............. 179 8.8 Spectroscopie methods ............................. 181 8.8.1 Spectroscopy using mainly inner electrons ............... 181 8.8.2 Spectroscopy with outer electrons ................... 182 8.8.3 Secondary ion mass spectrometry ................... 183 8.9 Summary .................................... 185 8.10 Exercises .................................... 185 Adsorption 187 9.1 Introduction ................................... 187 9.1.1 Definitions ............................... 187 9.1.2 The adsorption time .......................... 188 9.1.3 Classification of adsorption isotherms ................. 189 9.1.4 Presentation of adsorption isotherms .................. 191 9.2 Thermodynamics of adsorption ......................... 192 9.2.1 Heats of adsorption ........................... 192 9.2.2 Differential quantities of adsorption and experimental results ..... 193 9.3 Adsorption models ............................... 195 9.3.1 The Langmuir adsorption isotherm ................... 195 9.3.2 The Langmuir constant and the Gibbs energy of adsorption ...... 198 9.3.3 Langmuir adsorption with lateral interactions ............. 199 9.3.4 The BET adsorption isotherm ..................... 199 9.3.5 Adsorption on heterogeneous surfaces ................. 202 9.3.6 The potential theory of Polanyi ..................... 203 9.4 Experimental aspects of adsorption from the gas phase ............ 206 9.4.1 Measurement of adsorption isotherms ................. 206 9.4.2 Procedures to measure the specific surface area ............ 209 9.4.3 Adsorption on porous solids — hysteresis ............... 211 9.4.4 Special aspects of chemisorption .................... 214 9.5 Adsorption from solution ............................ 215 9.6 Summary .................................... 217 9.7 Exercises .................................... 217 Contents IX 10 Surface modification 219 10.1 Introduction ................................... 219 10.2 Chemical vapor deposition ........................... 220 10.3 Soft matter deposition .............................. 222 10.3.1 Self-assembled monolayers ...................... 222 10.3.2 Physisorption of Polymers ....................... 226 10.3.3 Polymerization on surfaces ....................... 228 10.3.4 Plasma polymerization ......................... 230 10.4 Etching techniques ............................... 232 10.5 Lithography ................................... 235 10.6 Summary .................................... 237 10.7 Exercises .................................... 238 11 Friction, lubrication, and wear 241 11.1 Friction ..................................... 241 11.1.1 Introduction ............................... 241 11.1.2 Amontons and Coulomb s Law .................... 242 11.1.3 Static, kinetic, and stick-slip friction .................. 244 11.1.4 Rolling friction ............................. 245 11.1.5 Friction and adhesion .......................... 247 11.1.6 Experimental Aspects ......................... 247 11.1.7 Techniques to measure friction ..................... 247 11.1.8 Macroscopic friction .......................... 249 11.1.9 Microscopic friction .......................... 250 11.2 Lubrication ................................... 253 11.2.1 Hydrodynamic lubrication ....................... 254 11.2.2 Boundary lubrication .......................... 256 11.2.3 Thin film lubrication .......................... 257 11.2.4 Lubricants ............................... 258 11.3 Wear ....................................... 259 11.4 Summary .................................... 261 11.5 Exercises .................................... 262 12 Surfactants, micelles, emulsions, and foams 265 12.1 Surfactants ................................... 265 12.2 Spherical micelles, cylinders, and bilayers ................... 269 12.2.1 The critical micelle concentration ................... 269 12.2.2 Influence of temperature ........................ 271 12.2.3 Thermodynamics of micellization ................... 272 12.2.4 Structure of surfactant aggregates ................... 274 12.2.5 Biological membranes ......................... 277 12.3 Macroemulsions ................................. 278 12.3.1 General properties ........................... 278 12.3.2 Formation ................................ 280 12.3.3 Stabilization .............................. 282 χ Contents 12.3.4 Evolution and aging .......................... 285 12.3.5 Coalescence and demulsification .................... 287 12.4 Microemulsions ................................. 287 12.4.1 Size of droplets ............................. 288 12.4.2 Elastic properties of surfactant films .................. 289 12.4.3 Factors influencing the structure of microemulsions .......... 290 12.5 Foams ...................................... 292 12.5.1 Classification, application and formation ............... 292 12.5.2 Structure of foams ........................... 293 12.5.3 Soap films ............................... 294 12.5.4 Evolution of foams ........................... 297 12.6 Summary .................................... 298 12.7 Exercises .................................... 298 13 Thin films on surfaces of liquids 301 13.1 Introduction ................................... 301 13.2 Phases of monomolecular films ......................... 304 13.3 Experimental techniques to study monolayers ................. 307 13.3.1 Optical methods ............................ 307 13.3.2 X-ray reflection and diffraction ..................... 308 13.3.3 The surface potential .......................... 311 13.3.4 Surface elasticity and viscosity ..................... 313 13.4 Langmuir-Blodgett transfer ........................... 314 13.5 Thick films - spreading of one liquid on another ................ 316 13.6 Summary .................................... 318 13.7 Exercises .................................... 319 14 Solutions to exercises 321 Appendix A Analysis of diffraction patterns 343 A.I Diffraction at three dimensional crystals .................... 343 АЛЛ Bragg condition ............................. 343 A.1.2 Laue condition ............................. 344 A.1.3 The reciprocal lattice .......................... 345 A.1.4 Ewald construction ........................... 347 A.2 Diffraction at Surfaces ............................. 347 A.3 Intensity of diffraction peaks .......................... 349 В Symbols and abbreviations 353 Bibliography 357 Index 379
any_adam_object 1
author Butt, Hans-Jürgen 1961-
Graf, Karlheinz 1966-
Kappl, Michael 1963-
author_GND (DE-588)110921550
(DE-588)120729075
(DE-588)128798548
author_facet Butt, Hans-Jürgen 1961-
Graf, Karlheinz 1966-
Kappl, Michael 1963-
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discipline Chemie / Pharmazie
Physik
Chemie
edition 2., rev. and enl. ed., 4. reprint
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spelling Butt, Hans-Jürgen 1961- Verfasser (DE-588)110921550 aut
Physics and chemistry of interfaces Hans Jürgen Butt ; Karlheinz Graf ; Michael Kappl
2., rev. and enl. ed., 4. reprint
Weinheim WILEY-VCH 2011
XII, 386 S. Ill., graph. Darst. 240 mm x 170 mm
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nc rdacarrier
Physics textbook
Oberflächenphysik (DE-588)4134881-3 gnd rswk-swf
Grenzflächenphysik (DE-588)4452968-5 gnd rswk-swf
Grenzflächenchemie (DE-588)4246080-3 gnd rswk-swf
Oberflächenchemie (DE-588)4126166-5 gnd rswk-swf
(DE-588)4123623-3 Lehrbuch gnd-content
Oberflächenphysik (DE-588)4134881-3 s
Oberflächenchemie (DE-588)4126166-5 s
1\p DE-604
Grenzflächenphysik (DE-588)4452968-5 s
Grenzflächenchemie (DE-588)4246080-3 s
2\p DE-604
Graf, Karlheinz 1966- Verfasser (DE-588)120729075 aut
Kappl, Michael 1963- Verfasser (DE-588)128798548 aut
Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=021106287&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle Butt, Hans-Jürgen 1961-
Graf, Karlheinz 1966-
Kappl, Michael 1963-
Physics and chemistry of interfaces
Oberflächenphysik (DE-588)4134881-3 gnd
Grenzflächenphysik (DE-588)4452968-5 gnd
Grenzflächenchemie (DE-588)4246080-3 gnd
Oberflächenchemie (DE-588)4126166-5 gnd
subject_GND (DE-588)4134881-3
(DE-588)4452968-5
(DE-588)4246080-3
(DE-588)4126166-5
(DE-588)4123623-3
title Physics and chemistry of interfaces
title_auth Physics and chemistry of interfaces
title_exact_search Physics and chemistry of interfaces
title_full Physics and chemistry of interfaces Hans Jürgen Butt ; Karlheinz Graf ; Michael Kappl
title_fullStr Physics and chemistry of interfaces Hans Jürgen Butt ; Karlheinz Graf ; Michael Kappl
title_full_unstemmed Physics and chemistry of interfaces Hans Jürgen Butt ; Karlheinz Graf ; Michael Kappl
title_short Physics and chemistry of interfaces
title_sort physics and chemistry of interfaces
topic Oberflächenphysik (DE-588)4134881-3 gnd
Grenzflächenphysik (DE-588)4452968-5 gnd
Grenzflächenchemie (DE-588)4246080-3 gnd
Oberflächenchemie (DE-588)4126166-5 gnd
topic_facet Oberflächenphysik
Grenzflächenphysik
Grenzflächenchemie
Oberflächenchemie
Lehrbuch
url http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=021106287&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv AT butthansjurgen physicsandchemistryofinterfaces
AT grafkarlheinz physicsandchemistryofinterfaces
AT kapplmichael physicsandchemistryofinterfaces

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