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Binks B.P., Horozov T. — Colloidal Particles at Liquid Interfaces
Binks B.P., Horozov T. — Colloidal Particles at Liquid Interfaces



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Название: Colloidal Particles at Liquid Interfaces

Авторы: Binks B.P., Horozov T.

Аннотация:

Discusses how small solid particles operate at liquid interfaces.


Язык: en

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 2006

Количество страниц: 503

Добавлена в каталог: 14.10.2009

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
Alporas-type      477
Alulight-type      477 480
Alumina particles in emulsion flotation      58 60
Alumina particles in metal foams      451 463 468 469 475 483
Alumina particles in particle-stabilised emulsions      212 213
Aluminium foam      445 447
Antifoam durability      385
Antifoam effect      383
Antifoam effect of oil drops      408 439
Antifoam effect of oil-solid compounds      439 440
Antifoam effect of solid particles      439
Antifoam efficiency      385 386 439
Antifoam exhaustion (deactivation)      384 432 436
Antifoam globules      390 391 396 426 436 438
Antifoam reactivation      432 136
Antifoaming action      388
Antifoaming action of oil and solid particle compounds      424 126
Antifoaming action, bridging-dewetting mechanism      408 409
Antifoaming action, bridging-stretching mechanism      410
Antifoaming action, non-bridging mechanisms      416 418
Antifoams      383 387
Antifoams, composition      386
Antifoams, fast      396 397 401 438
Antifoams, slow      396 398 401 402 420 438
Aqueous foam, characteristic time of bubble coarsening      395
Aqueous foam, characteristic time of film thinning      396
Aqueous foam, characteristic time of water drainage      394
Aqueous foam, destruction by antifoams      396 403
Aqueous foam, disproportionation      63 65 68 303 313 314
Aqueous foam, Plateau borders      332 333 388 391 402 103 421 422
Aqueous foam, stabilised by particles      62 69
Aqueous foam, structure      388 391
Asphaltene      205 217 218
At curved fluid interfaces      175 180 215 221
Attachment time      368 371
bacteria      47 51 299 328
Bacteria as demulsifiers      48 51
Bacteria as emulsifiers      47 48
Bacteria, contact angle      48 51
Binary particle crystals      247 254
Bio-specific interactions      228 245
Biotin      246
Blowing agent      448 453 476 477 484 485
Bridging coefficient      411 413 439
Bridging flocculation      311 312
Bubble-particle contact time      348 349 364
Buckling (collapse)      180 182 219 221
By ionisable latex particles      39 42
By paramagnetic particles      42 161
Capillary      134
Capillary force      5 92 98 100 145 146 227 228 261
Capillary length      5 136 178 352 367
Carbide particles      449 467 468 471
Catalyst particles      32 33
Clay particles      27 54 55 62 169 206 211 214 331
Cluster-mass distribution      87 89 90
Coal particles      56 57 369 370
Collectorless liquid-liquid extraction      60 62
Collision      349 354
Colloidal aggregates      16 80 86
Colloidal crystals      91 96 225 239 243 258
Compatibiliser      53 54
Coulombic through the oil (air)      15 20 116 120 122
De-inking flotation      339 344
Defoamers      386 387
Delaunay triangulation      84
Deposition on solid substrates      92
Derjaguin approximation      112
Dipolar      116 119
Disjoining pressure      137 362 389 390 406 461
Dispersion (van der Waals)      114
DLVO      109
Drainage mechanism      333
Emulsion flotation      58 60
Entry barrier      418 423
Entry coefficient      411 412
Evolution stages      453 455
Fat crystals      299 308
Ferritin      246
Film trapping technique      418 419
Food emulsions      187
Food foams      298 304
Formgrip-type      474
Fractal dimensions      80 81
Free energy of particle attachment      8 9 13 44
Free energy of particle detachment      6 8
Free energy of particle detachment of non-spherical particles      10 15
Free energy of particle detachment of spherical particles      8 9 197 502
Froth flotation      328 347
Froth flotation of hydrophilic particles      336 337
Froth flotation of ink particles      339 344
Froth flotation of naturally hydrophobic particles      337 339
Froth flotation of plastic wastes      344 347
Froth stability      331 335
Frother      328 329 330 335 336
Gold particles      86 243 244 245 2 48
Hydrophile-lipophile balance (HLB)      51 206 301
Hydrophobic      115
Immiscible polymer blends      53 56
Induction      361 364
Ink particles      340
Interfacial stress rheometer      173
Interfacial theology      169 171 174
Irregular      142 144 145 232
Janus particles      1 2 33 285
Laplace equation of capillarity      5 114 137 144
Latex particles      15 34 38 85 88 96 97 108 110 206 232 233 239 266 269 273
Line tension      2 3 9 27 199 222 366 367
Metal hydride particles      450 451 453 477
Metal matrix composites      449
Metcomb-type      470 1 75
Microgel particles      34 37 248 278
Molten metals      462 469
Monolayers at fluid interfaces      15 20 97 98 219
Monolayers at solid surfaces      93 96 240
Monolayers at solid surfaces with ordered mesopores      280 281
Nanocomposite particles      36 37 44 46 17
Neumann triangle      412 415
Non-spherical particles      6 10 15 65 85 161 214 264 283 406
Oil agglomeration      56 58
Oil lens at the air-water surface      318 321
Order-disorder transition      15 18 118
Order-disorder transition at planar fluid interfaces      15 17 77 92 95—99 108 110 169 174
Ostwald ripening      169 189
Pair interaction potential energy      110 112
Pair-distribution function      83 121
Paramagnetic      161 162 235
Partial coalescence of fat globules      320
Particle attachment to air bubbles      328 330 347 377
Particle hydrophobicity      15 17 32 33 57 64 66 97 118 206 268 315 331 335 426
Particle interactions at fluid interfaces      94 97 109 115 118 119 126—148
Particle wettability      2 06 304 308 32 1
Particle-assisted wetting      152 165
Particle-stabilised bubbles      62 313 317
Particle-stabilised emulsions      23 169 179 186 188 267 386 406
Particle-stabilised foams      62 69
Penetration depth      431 432
Phase diagrams      156
Phase inversion by spore particles      51 53
Phase inversion by sterically stabilised particles      37 39
Phase inversion by stimuli-responsive particles      33 34
Phase inversion, catastrophic      32
Phase inversion, transitional      207
Photonic crystals      77 235 254 264
Pickering emulsions      (see Particle-stabilised emulsions)
Pickering stabilization      298 308 313
Pickering, Spencer Umfreville      1 23 25 27 188 298
Polystyrene particles in colloidal crystals and arrays      242 247 248 257
Polystyrene particles in hollow particle shells (colloidosomes)      277 279
Polystyrene particles in liquid films      176 179 268 271
Polystyrene particles in monolayers at fluid interfaces      171 174 181 182
Polystyrene particles in particle-stabilised emulsions      208 212 213
Polystyrene particles in particle-stabilised foams      459
Polystyrene particles, contact angle      179
Polystyrene particles, floatability      345
Processing routes      448
Protein particles      299
Quartz particles      56 57 60 61 335 336 370 372
Radial distribution function      (see Pair-distribution function)
Ramsden, Walter      1 23 27 188 221 298
Reaction with particles      466 467
Silica particles in antifoams      384 386 400 424 425 432 38
Silica particles in colloidal crystals      240 243 250 252 263
Silica particles in froth flotation      376 377
Silica particles in particle-stabilised bubbles and foams      62 63 66 69 315 317 459
Silica particles in particle-stabilised emulsions      206 209 214 215 315
Silica particles in polymer blends      54 55
Silica particles in two-dimensional aggregates      88 91
Sliding      354 361
Solids-stabilized emulsions      (see Particle-stabilised emulsions)
Spore particles      51 53
Spreading and relaxation      347 349 364 368 405
Spreading coefficient      156 318 415
Spreading of oil droplets at the air—water surface      322
Stabilisation      455 459 467 469
Stabilisation by fat crystals      308
Stabilisation mechanisms      193 195
Stabilisation mechanisms by a bridging monolayer      202 203
Stabilisation mechanisms by particle bilayers      201 202
Streptavidin      246
Structural characterisation      80 83
Structure of cell walls      481 484
Supra-particles      266 273 275 280 283 285
Surface charge density in contact with oil (air)      18
Surface tension      462 463
Surfactant demulsifier      48 51
Surfactant-antifoam pairs      420 421
Synchrotron tomography      489 491
Thermodynamics of emulsification      27 32 191 192
Thin solid membranes      162
Three phase contact line      2 240 331
Three-dimensional particle assembly inside droplets      280 287
Titania      32 33 62
Trapped at fluid interfaces      95 115 118 120 124 125 146 171
Triphase catalysis      32
Two-dimensional colloidal aggregation      84 86 108 123 133
Two-dimensional colloidal mesostructures      98 108 142 144 146 148
Two-dimensional particle self assembly      99 102 254 265 267 272
Two-dimensional sedimentation      18 20
viscosity      463 465
Wetting of particles      467 469
X-ray radioscopy      484 489
Young equation      2 110 135 299 467
Young modulus of particle monolayers      180 181
Young — Dupre equation      468 (see also Young equation)
Young—Laplace equation      (see Laplace equation of capillarity)
Zeta potential      377
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