Surfactants and interfacial phenomena:
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Hoboken, NJ
Wiley
2012
|
| Ausgabe: | 4. ed. |
| Schriftenreihe: | A Wiley-Interscience publication
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Literaturangaben |
| Beschreibung: | XVI, 600 S. Ill., graph. Darst. |
| ISBN: | 9780470541944 |
Internformat
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| 245 | 1 | 0 | |a Surfactants and interfacial phenomena |c Milton J. Rosen ; Joy T. Kunjappu |
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| 264 | 1 | |a Hoboken, NJ |b Wiley |c 2012 | |
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Datensatz im Suchindex
| _version_ | 1804149348744822784 |
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| adam_text | Titel: Surfactants and interfacial phenomena
Autor: Rosen, Milton J
Jahr: 2012
CONTENTS
Preface xv
1 Characteristic Features of Surfactants 1
I. Conditions under which Interfacial Phenomena
and Surfactants Become Significant 2
II. General Structural Features and Behavior of Surfactants 2
A. General Use of Charge Types 4
B. General Effects of the Nature of the Hydrophobie Group 5
1. Length of the Hydrophobie Group 5
2. Branching, Unsaturation 5
3. Aromatic Nucleus 5
4. Polyoxypropylene or Polyoxyethylene (POE) Units 5
5. Perfluoroalkyl or Polysiloxane Group 6
III. Environmental Effects of Surfactants 6
A. Surfactant Biodegradability 6
B. Surfactant Toxicity; Skin Irritation 7
IV. Characteristic Features and Uses of Commercially Available
Surfactants 8
A. Anionics 9
1. Carboxylic Acid Salts 9
2. Sulfonic Acid Salts 11
3. Sulfuric Acid Ester Salts 15
4. Phosphoric and Polyphosphoric Acid Esters 17
5. Fluorinated Anionics 18
B. Cationics 19
1. Long-Chain Amines and Their Salts 20
2. Acylated Diamines and Polyamines and Their Salts 20
3. Quaternary Ammonium Salts 20
4. Polyoxyethylenated Long-Chain Amines 22
5. Quaternized POE Long-Chain Amines 22
6. Amine Oxides 22
vi CONTENTS
C. Nonionics 23
1. Polyoxyethylenated Alkylphenols, Alkylphenol
Ethoxylates 23
2. Polyoxyethylenated Straight-Chain Alcohols 24
3. Polyoxyethylenated Polyoxypropylene Glycols 25
4. Polyoxyethylenated Mercaptans 25
5. Long-Chain Carboxylic Acid Esters 26
6. Alkanolamine Condensates, Alkanolamides 27
7. Tertiary Acetylenic Glycols and Their
Ethoxylates 28
8. Polyoxyethylenated Silicones 28
9. N-Alkylpyrrolid(in)ones 29
10. Alkylpolyglycosides 29
D. Zwitterionics 30
1. pH-Sensitive Zwitterionics 30
2. pH-Insensitive Zwitterionics 32
E. Newer Surfactants Based Upon Renewable Raw
Materials 32
1. a-Sulfofatty Acid Methyl Esters (SME) 32
2. Acylated Aminoacids 33
3. Nopol Alkoxylates 34
V. Some Useful Generalizations 34
VI. Electronic Searching of the Surfactant Literature 35
References 36
Problems 37
2 Adsorption of Surface-Active Agents at Interfaces:
The Electrical Double Layer 39
I. The Electrical Double Layer 40
II. Adsorption at the Solid-Liquid Interface 44
A. Mechanisms of Adsorption and Aggregation 44
B. Adsorption Isotherms 48
1. The Langmuir Adsorption Isotherm 50
C. Adsorption from Aqueous Solution onto Adsorbents
with Strongly Charged Sites 53
1. Ionic Surfactants 53
2. Nonionic Surfactants 59
3. pH Change 59
4. Ionic Strength 60
5. Temperature 60
CONTENTS vi¡
D. Adsorption from Aqueous Solution onto Nonpolar,
Hydrophobie Adsorbents 60
E. Adsorption from Aqueous Solution onto Polar
Adsorbents without Strongly Charged Sites 63
F. Effects of Adsorption from Aqueous Solution on the
Surface Properties of the Solid Adsorbent 63
1. Substrates with Strongly Charged Sites 63
2. Nonpolar Adsorbents 65
G. Adsorption from Nonaqueous Solution 65
H. Determination of the Specific Surface Areas of
Solids 66
III. Adsorption at the Liquid-Gas (L/G) and Liquid-Liquid
(L/L) Interfaces 66
A. The Gibbs Adsorption Equation 67
B. Calculation of Surface Concentrations and Area Per
Molecule at the Interface by Use of the Gibbs Equation 69
C. Effectiveness of Adsorption at the L/G and L/L
Interfaces 71
D. The Szyszkowski, Langmuir, and Frumkin Equations 99
E. Efficiency of Adsorption at the L/G and L/L Interfaces 100
F. Calculation of Thermodynamic Parameters of
Adsorption at the L/G and L/L Interfaces 104
G. Adsorption from Mixtures of Two Surfactants 113
References 115
Problems 121
Micelle Formation by Surfactants 123
I. The Critical Micelle Concentration (CMC) 123
II. Micellar Structure and Shape 126
A. The Packing Parameter 126
B. Surfactant Structure and Micellar Shape 127
C. Liquid Crystals 128
D. Rheology of Surfactant Solutions 131
III. Micellar Aggregation Numbers 132
IV. Factors Affecting the Value of the CMC in Aqueous Media 140
A. Structure of the Surfactant 140
1. The Hydrophobie Group 140
2. The Hydrophilic Group 158
3. The Counterion in Ionic Surfactants; Degree of
Binding to the Micelle 160
4. Empirical Equations 164
viiî CONTENTS
B. Electrolyte 166
C. Organic Additives 167
1. Class I Materials 167
2. Class II Materials 168
D. The Presence of a Second Liquid Phase 169
E. Temperature 170
V. Micellization in Aqueous Solution and Adsorption at the
Aqueous Solution-Air or Aqueous Solution-Hydrocarbon
Interface 170
A. The CMC/C20 Ratio 171
VI. CMCs in Nonaqueous Media 179
VII. Equations for the CMC Based on Theoretical
Considerations 180
VIII. Thermodynamic Parameters of Micellization 184
IX. Mixed Micelle Formation in Mixtures of Two
Surfactants 191
References 192
Problems 200
4 Solubilization by Solutions of Surfactants: Micellar
Catalysis 202
I. Solubilization in Aqueous Media 203
A. Locus of Solubilization 203
B. Factors Determining the Extent of Solubilization 206
1. Structure of the Surfactant 207
2. Structure of the Solubilizate 209
3. Effect of Electrolyte 209
4. Effect of Monomeric Organic Additives 210
5. Effect of Polymeric Organic Additives 211
6. Mixed Anionic-Nonionic Micelles 212
7. Effect of Temperature 212
8. Hydrotropy 214
C. Rate of Solubilization 214
II. Solubilization in Nonaqueous Solvents 215
A. Secondary Solubilization 218
III. Some Effects of Solubilization 218
A. Effect of Solubilization on Micellar Structure 218
B. Change in the CPs of Aqueous Solutions of Nonionic
Surfactants 219
CONTENTS ix
C. Reduction of the CMC 223
D. Miscellaneous Effects of Solubilization 223
IV. Micellar Catalysis 224
References 229
Problems 233
5 Redaction of Surface and Interfacial Tension by Surfactants 235
I. Efficiency in Surface Tension Reduction 239
II. Effectiveness in Surface Tension Reduction 241
A. The Krafft Point 241
B. Interfacial Parameter and Chemical Structural
Effects 242
III. Liquid-Liquid Interfacial Tension Reduction 256
A. Ultralow Interfacial Tension 257
IV. Dynamic Surface Tension Reduction 262
A. Dynamic Regions 262
B. Apparent Diffusion Coefficients of Surfactants 265
References 266
Problems 270
6 Wetting and Its Modification by Surfactants 272
I. Wetting Equilibria 272
A. Spreading Wetting 273
1. The Contact Angle 275
2. Measurement of the Contact Angle 277
B. Adhesional Wetting 278
C. Immersional Wetting 281
D. Adsorption and Wetting 282
II. Modification of Wetting by Surfactants 285
A. General Considerations 285
B. Hard Surface (Equilibrium) Wetting 286
C. Textile (Nonequilibrium) Wetting 288
D. Effect of Additives 299
III. Synergy in Wetting by Mixtures of Surfactants 300
IV. Superspreading (Supenvetting) 300
References 303
Problems 306
x CONTENTS
7 Foaming and Antifoaming by Aqueous Solutions of Surfactants 308
I. Theories of Film Elasticity 309
II. Factors Determining Foam Persistence 313
A. Drainage of Liquid in the Lamellae 313
B. Diffusion of Gas through the Lamellae 314
C. Surface Viscosity 315
D. The Existence and Thickness of the Electrical
Double Layer 315
III. The Relation of Surfactant Chemical Structure to
Foaming in Aqueous Solution 316
A. Efficiency as a Foaming Agent 317
B. Effectiveness as a Foaming Agent 317
C. Low-Foaming Surfactants 325
IV. Foam-Stabilizing Organic Additives 326
V. Antifoaming 329
VI. Foaming of Aqueous Dispersions of Finely Divided Solids 330
VII. Foaming and Antifoaming in Organic Media 331
References 332
Problems 334
8 Emulsification by Surfactants 336
I. Macroemulsions 337
A. Formation 338
B. Factors Determining Stability 338
1. Physical Nature of the Interfacial Film 339
2. Existence of an Electrical or Steric Barrier to
Coalescence on the Dispersed Droplets 341
3. Viscosity of the Continuous Phase 342
4. Size Distribution of Droplets 342
5. Phase Volume Ratio 343
6. Temperature 343
C. Inversion 345
D. Multiple Emulsions 345
E. Theories of Emulsion Type 347
1. Qualitative Theories 347
2. Kinetic Theory of Macroemulsion Type 349
II. Microemulsions 350
III. Nanoemulsions 354
CONTENTS 3d
IV. Selection of Surfactants as Emulsifying Agents 355
A. The Hydrophile-Lipophile Balance (HLB) Method 356
B. The PIT Method 358
C. The Hydrophilic Lipophilic Deviation (HLD) Method 361
V. Demulsification 361
References 363
Problems 366
9 Dispersion and Aggregation of Solids in Liquid Media
by Surfactants 368
I. Interparticle Forces 368
A. Soft (Electrostatic) and van der Waals Forces:
Derjaguin and Landau and Verwey and Overbeek
(DLVO) Theory 369
1. Limitations of the DLVO Theory 374
B. Steric Forces 376
II. Role of the Surfactant in the Dispersion Process 378
A. Wetting of the Powder 378
B. Deaggregation of Fragmentation of Particle Clusters 379
C. Prevention of Reaggregation 379
III. Coagulation or Flocculation of Dispersed Solids by
Surfactants 379
A. Neutralization or Reduction of the Potential at the
Stern Layer of the Dispersed Particles 380
B. Bridging 381
C. Reversible Flocculation 381
IV. The Relation of Surfactant Chemical Structure to
Dispersing Properties 382
A. Aqueous Dispersions 382
B. Nonaqueous Dispersions 387
C. Design of New Dispersants 387
References 388
Problems 390
10 Detergency and Its Modification by Surfactants 392
I. Mechanisms of the Cleaning Process 392
A. Removal of Soil from Substrate 393
1. Removal of Liquid Soil 394
2. Removal of Solid Soil 395
CONTENTS
B. Suspension of the Soil in the Bath and Prevention
of Redeposition 398
1. Solid Particulate Soil: Formation of Electrical
and Steric Barriers; Soil Release Agents 398
2. Liquid Oily Soil 399
C. Skin Irritation (see Chapter 1, Section IIIB) 400
D. Dry Cleaning 401
II. Effect of Water Hardness 402
A. Builders 402
B. LSDAs 404
III. Fabric Softeners 405
IV. The Relation of the Chemical Structure of the Surfactant
to its Detergency 407
A. Effect of Soil and Substrate 407
1. Oily Soil 407
2. Particulate Soil 409
3. Mixed Soil 410
B. Effect of the Hydrophobie Group of the Surfactant 411
C. Effect of the Hydrophilic Group of the Surfactant 412
D. Dry Cleaning 414
V. Biosurfactants and Enzymes in Detergent Formulations 415
VI. Nanodetergents (see Chapter 14, Section IIIF) 416
References 416
Problems 419
11 Molecular Interactions and Synergism in Mixtures of
Two Surfactants 421
I. Evaluation of Molecular Interaction Parameters 422
A. Notes on the Use of Equations 11.1-11.4 423
II. Effect of Chemical Structure and Molecular
Environment on Molecular Interaction Parameters 427
III. Conditions for the Existence of Synergism 440
A. Synergism or Antagonism (Negative Synergism) in
Surface or Interfacial Tension Reduction Efficiency 441
B. Synergism or Antagonism (Negative Synergism)
in Mixed Micelle Formation in an Aqueous Medium 442
C. Synergism or Antagonism (Negative Synergism) in
Surface or Interfacial Tension Reduction Effectiveness 445
D. Selection of Surfactant Pairs for Optimal Interfacial
Properties 447
CONTENTS xiii
IV. The Relation between Synergism in Fundamental
Surface Properties and Synergism in Surfactant Applications 448
References 453
Problems 456
12 Gemini Surfactants 458
I. Fundamental Properties 459
II. Interaction with Other Surfactants 463
III. Performance Properties 466
References 467
Problems 470
13 Surfactants in Biology 471
I. Biosurfactants and Their Application Areas 471
II. Cell Membranes 480
III. Surfactants in Cell Lysis 486
IV. Protein Denaturing and Electrophoresis with Surfactants 491
V. Pulmonary Surfactants 491
VI. Surfactants in Biotechnology 493
A. Mineral Engineering 494
B. Fermentation 495
C. Enzymatic Deinking 495
D. EOR and Oil Bioremediation 495
E. Enzyme Activity in Surfactant Media 496
F. Carbon Dioxide Fixing in Bioreactors 496
G. Soil Remediation 496
H. Effluent Purification 497
I. Surfactants in Horticulture 497
J. Vesicle Manipulation 497
K. Genetic Engineering and Gene Therapy 497
References 498
Problems 501
14 Surfactants in Nanotechnology 502
I. Special Effects of the Nanostate 503
II. Role of Surfactants in the Preparation of Nanostructures 503
A. Bottom-Up Methods 504
1. Surfactant Self-Assembly 504
2. Synthetic Processes 508
B. Top-Down Methods 517
xiv CONTENTS
III. Surfactants in Nanotechnology Applications 517
A. Nanomotors 517
B. Other Nanodevices 520
C. Drug Delivery 522
D. Nanostructural Architectural Control of Materials 522
E. Nanotubes 525
F. Nanodetergents 525
G. Surfactant Nanoassemblies in the Origin of Life 526
References 528
Problems 529
15 Surfactants and Molecular Modeling 531
I. Molecular Mechanics Methods 533
A. Parametrization from Experiments 534
B. Classes of FF Methods 534
II. Quantum Mechanical Methods 534
A. Application to the Electronic Problem 536
B. The Hartree Product (HP) Description 537
C. Minimal and Larger Basis Sets 538
D. Electron Correlation Method 539
E. Density Functional Theory (DFT) 540
III. Energy Minimization Procedure 540
IV. Computer Simulation Methods 541
V. Surfactant Systems 542
VI. Five Selected Systems 542
A. Aggregation in a Liquid (i) 542
B. Aggregation in a Liquid (ii) 543
C. Liquid-liquid and Liquid-Gas Interface 545
D. Solid-Liquid Interface 547
E. Solid-Liquid Interface and Aggregation in a Liquid 549
VII. Summary of Representative Modeling Studies 550
General References 568
Problems 568
Answers to Selected Problems 569
Index 576
|
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| id | DE-604.BV040321178 |
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| indexdate | 2024-07-10T00:21:36Z |
| institution | BVB |
| isbn | 9780470541944 |
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| record_format | marc |
| series2 | A Wiley-Interscience publication |
| spelling | Rosen, Milton J. 1920- Verfasser (DE-588)132960613 aut Surfactants and interfacial phenomena Milton J. Rosen ; Joy T. Kunjappu 4. ed. Hoboken, NJ Wiley 2012 XVI, 600 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier A Wiley-Interscience publication Literaturangaben Chimie des surfaces ram Surfactants Surfactants ram Surface active agents Surface chemistry Oberflächenchemie (DE-588)4126166-5 gnd rswk-swf Grenzflächenaktiver Stoff (DE-588)4158138-6 gnd rswk-swf Matériel didactique Grenzflächenaktiver Stoff (DE-588)4158138-6 s Oberflächenchemie (DE-588)4126166-5 s DE-604 Kunjappu, Joy T. Verfasser aut HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025175799&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Rosen, Milton J. 1920- Kunjappu, Joy T. Surfactants and interfacial phenomena Chimie des surfaces ram Surfactants Surfactants ram Surface active agents Surface chemistry Oberflächenchemie (DE-588)4126166-5 gnd Grenzflächenaktiver Stoff (DE-588)4158138-6 gnd |
| subject_GND | (DE-588)4126166-5 (DE-588)4158138-6 |
| title | Surfactants and interfacial phenomena |
| title_auth | Surfactants and interfacial phenomena |
| title_exact_search | Surfactants and interfacial phenomena |
| title_full | Surfactants and interfacial phenomena Milton J. Rosen ; Joy T. Kunjappu |
| title_fullStr | Surfactants and interfacial phenomena Milton J. Rosen ; Joy T. Kunjappu |
| title_full_unstemmed | Surfactants and interfacial phenomena Milton J. Rosen ; Joy T. Kunjappu |
| title_short | Surfactants and interfacial phenomena |
| title_sort | surfactants and interfacial phenomena |
| topic | Chimie des surfaces ram Surfactants Surfactants ram Surface active agents Surface chemistry Oberflächenchemie (DE-588)4126166-5 gnd Grenzflächenaktiver Stoff (DE-588)4158138-6 gnd |
| topic_facet | Chimie des surfaces Surfactants Surface active agents Surface chemistry Oberflächenchemie Grenzflächenaktiver Stoff Matériel didactique |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025175799&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT rosenmiltonj surfactantsandinterfacialphenomena AT kunjappujoyt surfactantsandinterfacialphenomena |