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Hiemenz P.C. (ed.), Rajagopalan R. (ed.) — Principles of colloid and surface chemistry
Hiemenz P.C. (ed.), Rajagopalan R. (ed.) — Principles of colloid and surface chemistry



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Название: Principles of colloid and surface chemistry

Авторы: Hiemenz P.C. (ed.), Rajagopalan R. (ed.)

Аннотация:

This work aims to familiarize students with the fundamentals of colloid and surface science, from various types of colloids and colloidal phenomena, and classical and modern characterization/measurement techniques to applications of colloids and surface science in engineering, technology, chemistry, physics and biological and medical sciences. The Journal of Textile Studies proclaims "High praise from peers . . .contains valuable information on many topics of interest to food rheologists and polymer scientists ...[The book] should be in the libraries of academic and industrial food research organizations" and Chromatographia describes the book as "...an excellent textbook, excellently organised, clearly written and well laid out."


Язык: en

Рубрика: Химия/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: third

Год издания: 1997

Количество страниц: 653

Добавлена в каталог: 30.08.2009

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
Radiation scattering      193
Radius of gyration      35 219 222
Random walk      85
Random walk and average displacement      93—94
Random walk and diffusion      88—93
Random walk statistics      85 93
Random walk statistics and random coil      94—98
Random walk statistics, diffusion coefficients from      88 90—93
Raoult's law      108
Rapid coagulation      592—596
Rayleigh equation      202 203
Rayleigh ratio      206
Rayleigh scattering      195 214
Repulsive interactions between planar double layers      520—524
Repulsive interactions between spherical double layers      525—526
Reverse micelles      386—389
Reverse micelles, solubilization in      387
Reverse micelles, uses of      387—389
Reverse osmosis      140
Rheology      145 146
Rheology of chocolate      146
Rheopectic      175
Root-mean-square (RMS) value      632
Scanning electron microscopy (SEM)      42 43
Scanning probe microscopy (SPM)      44
Scanning tunneling microscopy (STM)      44 45 46
Scattering by gases      202
Scattering by large absorbing particles      229—232
Scattering by single molecules      202
Scattering vector      217
Scattering vector physical significance      223
Scattering, Debye theory      214 215—223 214
Scattering, dynamic      193 236
Scattering, Guinier region      225
Scattering, intraparticle interference      213—227
Scattering, light      193 195 229
Scattering, Mie theory      232—235
Scattering, multiple      194
Scattering, neutron      202 229
Scattering, Porod region      225
Scattering, Rayleigh equation      202 203
Scattering, static      193
Scattering, X-ray      228 229
Schulze — Hardy rule      588
Second virial coefficient      107 123 129 132
Second virial coefficient, Flory — Huggins      130
Second virial coefficient, light scattering      212
Second virial coefficient, osmotic pressure      113 124 130
Secondary minimum      467
Sedimentation      17 62 64—78
Sedimentation analysis of data      72 73
Sedimentation and ellipticity      71
Sedimentation and polydispersity      71
Sedimentation and solvation      67
Sedimentation centrifugal      74—78
Sedimentation coefficient      77
Sedimentation effect of nonsphericity      70
Sedimentation effect of solvation      70
Sedimentation equation      69
Sedimentation equation and particle-size distribution      73 74
Sedimentation equilibrium with diffusion      98 99 100
Sedimentation field flow fractionation (FFF)      62
Sedimentation gravitational      67—74
Sedimentation measurements      71—74
Sedimentation potential      534
Sedimentation sensitivity to density differences      67
Sedimentation sewage treatment      568
self-assembled monolayers      249 250
self-assembly      355
Semipermeable membrane      110
Shear      148 151
Shear thinning      146
SI units      626 627
Siegert relation      237
Slow coagulation      592 593 596—598
Smoluchowski theory of colloid stability      578
Solution thermodynamics, statistical foundations      120—125
Solvation and surface excess      327
Solvation and viscosity      170
Solvation from sedimentation data      82 84
Solven and theta temperature      130—132
Solven, adsorption of      338
Solven, goodness and aggregation      609
Solven, induced absorption band      366
Solven, “goodness” of      96 125 130—132
Specific surface area      8
Specific surface area variation with geometry      9
Spectroscopic methods      406
Spread monolayers      300
Spread monolayers, applications of      320—323
Spread monolayers, properties of      301
Spreading      270 271 272
Spreading coefficient      272 300
Stability      14—19 16 19 465—467 575
Stability of dispersions      14
Stability of thin films      463
Stability ratio      578 592—604
Stability ratio and critical coagulation concentration      600
Stability ratio and ionic concentration      602
Stability ratio, equations for      598 599
Stability, kinetic      15 16
Stability, thermodynamic      17
Stabilization depletion      605
Stabilization, electrostatic      604
Stabilization, steric      11 604 605
Standard deviation      32 37 632
Static scattering      193
Stationery settling velocity      66
Statistical entropy      120
Statistical entropy and entropy of mixing      122
Staudinger — Mark — Houwink equation      181 182
Stealth effect      11
Stealth liposomes      11
Steric stabilization      576 578 614—619
Steric stabilization model for initial encounter      614—619
Sterling's approximation      87 421
Stern adsorption      527—530
Stern layer      528
Stern surface      527
Stokes approximation      161
Stokes equation      161
Stokes law      63 69 83 537
Stokes — Einstein equation      81 196 239 242 594
Stranski — Krastanov growth      408
Streaming current      554
Streaming potential      534 551 553—555
Streaming potential, relation to zeta potential      553
Structure factor, dynamic      228
Structure factor, interparticle      227—228
Structure factor, intraparticle      223—227
Structure factor, uses of      228
Sulfur sols      235
Supernet      449
Surface area specific      8
Surface area, importance of      5 7 8
Surface charge density      515
Surface charge density, surface potential, relation to      516 519
Surface charges      502
Surface charges from electrokinetic measurements      565—567
Surface charges origin      502
Surface charges, zeta potential, relation to      565
Surface energy      5
Surface excess charge      499
Surface excess concentration      327
Surface excess concentration, ion dissociation, effect of      330
Surface excess concentration, measurement of      331
Surface excess concentration, surface tension, related to      327 329
Surface excess properties      325 325—327 329
Surface force apparatus (SFA)      51 54 55
Surface of shear      528 555—558
Surface pressure      301
Surface pressure and surface tension      301
Surface pressure versus area isotherms      302
Surface reconstruction      449
Surface tension      248 251 276—283 289 301 327 329 487—489
Surface tension and cohesion, adhesion and spreading      270—272
Surface tension and Hamaker constant      487—489
Surface tension as force      251
Surface tension as surface free energy      255
Surface tension implications to capillarity      257—265
Surface tension implications to curved surfaces      257—265
Surface tension molecular interpretation      286—291
Surface tension relationship to contact angle      265
Surface tension, Girifalco — Good equation      287
Surface tension, Girifalco — Good — Fowkes equation      288
Surface tension, measurement of      253—255 278
Surface tension, measurement of, capillary rise technique      254—255 253
Surface tension, measurement of, drop-weight method      255
Surface tension, measurement of, maximum bubble-pressure method      255
Surface tension, measurement of, ring method      251
Surface tension, measurement of, sessile-drop technique      279
Surface tension, measurement of, tilted plate technique      252 253
Surface tension, measurement of, Wilhelmy plate technique      253—254 253 276 302
Surface viscosity      318
Surfaces, thermodynamics of      255—257
Surfactants      297 302
Surfactants molecular architecture and shapes of micelles      367—370
Swamping electrolyte      137
Swollen micelles      391
Taylor series      625
Ternary phase diagrams      378 379 391 393
Theta ($\theta$) temperature      130—131 132 186 611
Thin-film growth      407
Thixotropy      175 181
Tortuosity      284
Transmission electron microscopy (TEM)      42
Tunneling current      44
Turbidity      210 211 360
Tyndall spectra      235—236
Ultracentrifuge      74 75 78 100
Ultracentrifuge, optics of      75
Ultrafiltration      140
Units conversion      627
van der Waals equation of state, three-dimensional (bulk gases)      477
van der Waals equation of state, two-dimensional (surface phases)      416
Van der Waals forces      482
van der Waals forces and heat of vaporization      476
van der Waals forces and nonideality of gases      479
van der Waals forces and structure of materials      481
van der Waals forces for large particles      479—482
van der Waals forces from surface tension      487 488
van der Waals forces macroscopic implications      477—479
van der Waals forces molecular origins      471—475
van der Waals forces over large distances      479—483
van der Waals forces, calculation of      483—485
van der Waals forces, Debye interaction      469 471—472 477
van der Waals forces, direct measurement of      490 491
van der Waals forces, Dzyaloshinskii — Lifshitz — Pitaevskii (DLP) theory      486
van der Waals forces, expressions for      481—485 486
van der Waals forces, Keesom interaction      469 472 477
van der Waals forces, London interaction      469 473—475 477
van der Waals forces, retarded      471 482—483
van't Hoff equation      3
Vesicles      398
vignettes      4
Vignettes adsorption      407
Vignettes bilayers      4
Vignettes biology      4
Vignettes biophysics      4 106
Vignettes catalysis      49
Vignettes ceramic processing      16
Vignettes chemical vapor deposition      407
Vignettes chemisorption      407
Vignettes chocolate      146
Vignettes colloid-enhanced transport      2
Vignettes composites, polymer      18
Vignettes contact angle      249
Vignettes copolymers      18
Vignettes cosmetics      11
Vignettes crystal growth      407
Vignettes diffusing wave spectroscopy      194
Vignettes Donnan equilibrium      106
Vignettes drug delivery systems      11
Vignettes electrophoretic image display (EPID)      13
Vignettes electrophotography      535
Vignettes electrostatic interactions      500
Vignettes epitaxial films      407
Vignettes field flow fractionation      62
Vignettes food colloids      31
Vignettes Langmuir — Blodgett films      298
Vignettes liposomes      11
Vignettes micellar encapsulation      356
Vignettes micellar enhanced ultrafiltration (MEUF)      356
Vignettes molecular recognition      500
Vignettes nerve cells      106
Vignettes osmotic pressure      106
Vignettes physiology      106
Vignettes physisorption      407
Vignettes polymer adsorption      576
Vignettes polymer composites      18
Vignettes rheology      146
Vignettes scanning probe microscopy      44
Vignettes scanning tunneling microscopy      44
Vignettes sedimentation field flow fractionation      62
Vignettes separation processes      49 356
Vignettes size exclusion      49
Vignettes spreading      463
Vignettes stability of thin films      463
Vignettes steric stability      576
Vignettes wettability      249 463
Vignettes zeolites      49
Viral expansion      112
Virial coefficients      108
Virial coefficients and osmotic pressure      112 113
Virial coefficients and van der Waals constants      113
Viscoelastic      146 176
Viscoelectric effect      171 174 555
Viscometers capillary      154 156 157 157
Viscometers concentric cylinder      150 757 157
Viscometers cone-and-plate      153
viscosity      145 148 150
Viscosity and polymer configuration      187
Viscosity of dispersions, effect of solvation and shapes      169
Viscosity of dispersions, Einstein's equation      164
Viscosity of dispersions, electroviscous effects      171—174
Viscosity of dispersions,Einstein's theory      147 161 164
Viscosity of dispersions,Krieger — Dougherty equation      169
Viscosity of dispersions,viscoelastic effects      171 174
Viscosity of polymer solutions      181—187
Viscosity of polymer solutions, Kirkwood — Riseman theory      186
Viscosity of polymer solutions, Staudinger — Mark — Houwink equation      181—183 182
Viscosity, Newton's law      147 148
Volmer — Weber growth      408
Volume of hydrocarbon chain      367 368
Washburn equation      286
Wettability      249 250
Wood notation      450
X-ray scattering      228 229
Xerography      535
Yield stress (or, value)      149 175 180
Young equation      265 265
Young equation and equilibrium film pressure      267
Young equation and heat of immersion      268 269
Young equation effect of solid surface      266
Young equation effect of surface heterogeneities      266
Young — Dupre      266; see also “Young equation”
Zeolite      49 50 285
Zero liquid flow in electrophoresis      561
Zero point of charge      503 566
Zeta potential      530 534 536
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