Hiemenz P.C. (ed.), Rajagopalan R. (ed.) — Principles of colloid and surface chemistry :: Электронная библиотека попечительского совета мехмата МГУ

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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:

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

Предметный указатель

Equation, Helmholtz — Smoluchowski      545
Equation, Henry      548
Equation, Hueckel      543
Equation, Keesom      472
Equation, Kelvin      262
Equation, Krieger — Dougherty      169
Equation, Langmuir, for gases      422
Equation, Langmuir, for liquids      331
Equation, Laplace      251
Equation, Lippmann      346
Equation, London      474
Equation, Navier — Stokes      160
Equation, Poiseuille      156
Equation, Poisson      508
Equation, Poisson — Boltzmann      509
Equation, Poisson — Boltzmann, linearized      510
Equation, Raoult      108
Equation, Rayleigh      202
Equation, Rayleigh sedimentation      69
Equation, Simha      171
Equation, Staudinger — Mark — Houwink      181
Equation, Stokes      161
Equation, Stokes — Einstein      81
Equation, van der Waals, three-dimensional, gases      477
Equation, van der Waals, two-dimensional, gases      416
Equation, Van't Hoff      112
Equation, Washburn      286
Equation, Young      265
Equation, Young — Dupre      266
Equilibrium film pressure      267
Error function      92 634
Excluded volume      120 124 287
Expansions for binomial function      625
Expansions for exponential function      625
Expansions for hyperbolic cosine      625
Expansions for hyperbolic sine      625
Expansions for logarithmic function      625
Expansions for sine function      625
Experimental tools      38
Faraday constant      503 537
Fick's law      63 78
Fick's law, first      79
Fick's law, second      80
Field flow fractionation (FFF)      62
Film pressure      304
Film pressure experimental measurements      304—308
Film pressure versus area isotherms      308 311—316 315
Floatation      338
Flocculation bridging      605
Flocculation depletion      605
Flory temperature      131; see also “Theta temperature”
Flory — Huggins theory      125—132
Flory — Huggins theory interaction parameter      129
Flory — Huggins theory, enthalpy of mixing      127
Flory — Huggins theory, entropy of mixing      126
Flory — Krigbaum theory      616
Fluid mosaic model of a membrane      396
Force measurement      50
Force measurement direct methods      51 54 55
Force measurement indirect methods      51 52
Form factor      215—218 223
Form factor, expressions for      216
Fowkes equation      489
Fractal      225 226 227
Fractal aggregate      27 225
Fractal definition      22
Fractal dimension      26 27 225 226
Fractal mass      27
Frank — Van der Merwe growth      408
Freundlich isotherm      337
Friction factor      65—67
Friction factor and axial ratio      81
Friction factor and diffusion coefficient      80
Friction factor and solvation      82
Friction factor and viscous force      537
Fuchs theory of colloid stability      578
Gamma functions      87 88
Gasoline and streaming potential      555
Gaussian distribution function      89 90 634 635
genetic engineering      11
Gibbs equation for adsorption      323—325
Gibbs equation for adsorption experimental results      327—331
Gibbs monolayer      297
Gibbs — Donnan equilibrium      see “Donnan equilibrium”
Gibbs — Helmholtz equation      373
Girifalco — Good equation      287
Girifalco — Good — Fowkes equation      288
Gold sols      232
Good solvent      125
Gouy layer      505
Gouy — Chapman layer      505 527
Gouy — Chapman model      501 516—520
Graticule      22
Guinier region      225
Hamaker constant      484 485 488
Hamaker constant from bulk properties      486—490
Hamaker constant from corresponding state theory      489 490
Hamaker constant from surface tension      487 488
Hamaker constant, combining relations for      491—493
Hamaker constant, negative values of      493—494
Harkin — Jura equation      417
Heat of adsorption      431
Heat of adsorption, integral      435
Heat of adsorption, isosteric      434
Helmholtz plane      527—528
Helmholtz plane inner      527
Helmholtz plane outer      527
Helmholtz — Smoluchowski equation      546 550
Henry's equation      546—548
Heterogeneous catalysis      407
Heterogeneous catalysis on metal surfaces      451—455 452
Histograms      32 33 632
Hooke's law and polymers      619
Hueckel equation      546 550
Hydrophobic effect      357 375
Hyperfiltration      140
Immunoelectrophoresis      569
Incoherent structures      449
Indifferent ions      503
INTERFACE      2
Interfacial tension      290
Interfacial tension, London component      290
Interparticle interaction forces and energies due to depletion effect      614 615
Interparticle interaction forces and energies due to polymers      610—613 613
Interparticle interaction forces and energies effect of electrolyte concentration      587
Interparticle interaction forces and energies effect of Hamaker constant      585 586
Interparticle interaction forces and energies effect of surface potential      585 586
Isoelectric focusing      564
Isoelectric point      566
Isoionic point      566
Isomorphic substitution of ions      502
Isotherms, Brunauer — Emmett — Teller (BET)      428
Isotherms, Freundlich      337
Isotherms, Harkin — Jura      417
Isotherms, Langmuir      333
Isotopic labeling of surfactants      331
Keesom equation      469 472
Kelvin equation      261 262
Kinetic molecular theory      99
Kirkwood — Riseman theory      147 186
Krieger — Dougherty equation      169
kurtosis      633
Langmuir adsorption isotherm      331 334 335 420 424
Langmuir adsorption isotherm kinetic theory      424—425
Langmuir adsorption isotherm statistical thermodynamic derivation      420—423
Langmuir adsorption isotherm, limitations of      336—338
Langmuir film balance      304 305 306
Langmuir layer      297
Langmuir — Blodgett film      297 298 299 342 343
Laplace equation      251 259

Laplace equation and capillary rise      260—261
Lasagna process      568
Lennard — Jones potential      469 470
Life sciences      4
Light scattering      193 360
Light scattering absorbance      209
Light scattering experimental aspects      207—213 207
Light scattering intensity measurements      208
Light scattering turbidity      209 360
Lipid molecules      7 11
Liposomes      11 12 398
Lippmann equation      345—346
Liquid-condensed (LC) phase      310
Liquid-expanded (LE) phase      309
Liquidlike structures      17 580 582
Log-normal distribution      636
London equation      469 473 474
Low-Energy Electron Diffraction (LEED)      406 440—451
Low-Energy Electron Diffraction (LEED) apparatus      441
Low-Energy Electron Diffraction (LEED) interpretation      445—451
Macroions      537
Mark — Houwink coefficients      38 182 182
Mass action model      357
Mean      632; see also “Average”
Membrane potential      136
Micellar encapsulation      356
Micellar-enhanced ultrafiltration      356
Micelle      355 358
Micelle fiord structure      365
Micelle reef structure      365
Micelle, catalysis by      380—385 383
Micelle, core of      364
Micelle, solubilization in      375—380
Micelle, structure of      363—370 365
Micellization      361
Micellization and packing considerations      367—370
Micellization chemical reaction model      357—358 370 372
Micellization phase equilibrium model      361 372—375
Micellization, enthalpy change due to      373 374
Micellization, entropy change due to      373 374 375
Micellization, Gibbs energy change due to      373 374
Micellization, thermodynamics of      370—375
Microelectrophoresis      538 559 560
Microemulsions      389—395
Microemulsions as “swollen micelles”      390 391
Microemulsions, applications of      392—395
Microemulsions, phase diagrams of      391 392 393
Microscopy      39 42
Microscopy, electron      42 42
Microscopy, optical      39
Microscopy, optical, contrast      39
Microscopy, optical, dark-field      41
Microscopy, optical, magnification      39
Microscopy, optical, resolving power      39
Microscopy, scanning-probe      43 44 46
Microstructured materials      18
Mie theory      232—235
Miller indices      443
Mimetic chemistry      356
Mobility      536—538
Molecular sieve      49 50
Molecular weight      36 111 118
Molecular weight distribution      118 119
Molecular weight distribution and degree of polymerization      119
Molecular weight from light scattering      210
Molecular weight number average      36 37 38
Molecular weight viscosity average      38 183
Molecular weight, weight average      36 37 38
Moments of a distribution      631
Monolayers      298
Monolayers gas phase      308 311
Monolayers insoluble      300
Monolayers intermediate phase      308 317
Monolayers liquid-condensed (LC) phase      308 310 317
Monolayers liquid-expanded (LE) phase      308 309 316
Monolayers solid phase      308 317
Monolayers spread      300
Monolayers van der Waals equation      314
Monolayers, structure of      309—318
Moving-boundary electrophoresis      562
Multiple scattering      194 196
Navier — Stokes equation      147 158—161
Nerve cells and Donnan equilibrium      106
Newton's law of viscosity      147 148
Non-Newtonian behavior      149 17
Normal distribution function      89 90 634 635
Normalization      633
Numerical aperture      40
Optimal head group area      367 368
Orthokinetic coagulation      592
Osmometry      110 114
Osmometry and measurement of molecular weight      116 117
Osmometry and polydispersity      118
Osmometry applications      114
Osmosis, reverse      140
Osmotic equilibrium      106 110 132
Osmotic equilibrium and charged systems      132—139
Osmotic phenomena, applications of      139
Osmotic pressure      105 106 108 111 129 137
Osmotic pressure and charges of macroions      138
Osmotic pressure at critical micelle concentration      359
Osmotic pressure charged particles      136—139
Osmotic pressure definition      111
Osmotic pressure equilibrium time      114 117
Osmotic pressure experimental      114
Osmotic pressure ideal solutions      114
Osmotic pressure molecular weight measurements using      117
Osmotic pressure nonideal solutions      112
Osmotic pressure thermodynamic foundations      108—114
Osmotic pressure, apparatus      110 116
Osmotic pressure, reduced      114
Osmotic pressure, two-dimensional, on liquids      314
Packing parameter      369 371
Palisade layer      365
Particle size distribution      31
Particle size distribution histogram      32 33 632
Partition functions      121 419—423
Partition functions and adsorption isotherms      422
Peclet number      176
Perikinetic coagulation      592 603
Phase equilibrium model      357 361
Phospholipid      4
Physisorption      405 406
Pigment particles      13
Poiseuille equation      154 156
Poisson equation, meaning of      508
Poisson — Boltzmann equation      509
Poisson — Boltzmann equation, linearized      510
Polarizability of particles      201
Polydispersity      31
Polymer and random walk statistics      94—96
Polymer coils      94—98
Polymer coils end-to-end distance      94—96
Polymer coils radius of gyration      96—98
Polymer forces induced by      608 610—614 611 613 615
Polymer radius of gyration of      96—98
Polymer solutions, Flory — Huggins theory of      125—132
Polymer surfaces, organic, low energy      267
Polymer, adsorption of      604 606
Polymer-induced forces      608 610—614 611 613 615
Polymer-induced forces, attractive forces      613
Polymer-induced forces, repulsive forces      612
Polymer/colloid mixtures      604
Poor solvent      125
Porosimetry      285
Potential determining ions      503
Potential distribution around cylindrical surfaces      511
Potential distribution around spherical surfaces      511
Potential distribution near planar surfaces      509—511
Primary minimum      467

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