Highlights in colloid science:
Gespeichert in:
Format: | Buch |
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Sprache: | English |
Veröffentlicht: |
Weinheim
Wiley-VCH
2009
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Schlagworte: | |
Online-Zugang: | Inhaltstext Inhaltsverzeichnis |
Beschreibung: | XXI, 306 S. Ill., graph. Darst. |
ISBN: | 9783527320370 |
Internformat
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Contents
Preface XI
Tharwat F. Tadros XÍ7Í
List of Contributors XVII
1 Orthokinetic Heteroflocculation in Papermaking 1
Theo CM. van de Ven
1.1 Introduction 1
1.2 Polymer-Induced Orthokinetic Heteroflocculation 2
1.2.1 Polymer Adsorption and Desorption on Fibers and Colloids 3
1.2.2 Deposition of Colloids on Fibers Subjected to Shear 5
1.2.3 Polymer Transfer 10
1.2.4 Time Dependence of Deposition and Detachment Rate Coefficients 12
1.3 Heteroflocculation Among Colloids 13
1.4 Heteroflocculation of Fines and Colloids 17
1.5 Concluding Remarks 18
References 19
2 Uptake and Release of Active Species into and from Microgel Particles 21
Melanie Bradley, Paul Davies, and Brian Vincent
2.1 Introduction to Microgel Particles 21
2.2 Absorption of Small Molecules 23
2.3 Absorption of Surfactants 25
2.4 Absorption of Polymers and Proteins 29
2.5 Absorption of Nanopartides 34
References 38
3 Stability of Fluorinated Systems: Structure-Mechanical Barrier
as a Factor of Strong Stabilization 41
Eugene D. Shchukin, Elena A. Amelina\ and Aksana M. Patfenova
3.1 Introduction 41
Highlights in Colloid Science. Edited by Dimo Platikanov and Dotchi Exerowa
Copyright © 2009 WILEY-VCH Verlag GmbH Co. KGaA, Weinheim
ISBN: 978-3-527-32O37-O
VI Contents
3.2 Rheological Studies of Interfacial Adsorption Layers in Fluorinated
Systems 42
3.3 Studies of the Rupture and Coalescence of Individual Droplets 44
3.4 Studies of the Interaction of Hydrophobized Solid Surfaces in Nonpolar
Liquids 47
3.5 Discussion 49
3.6 Conclusion 51
References 51
4 Particle Characterization Using Electro-Acoustic Spectroscopy 55
Richard W. O'Brien, James K. Beattie, and Robert J. Hunter
4.1 Introduction 55
4.2 Understanding the ESA Effect 55
4.3 The Dynamic Mobility 59
4.4 The Dynamic Mobility for Thin Double Layer Systems 63
4.5 Particles with Adsorbed Polymer Layers 65
4.6 Surface Conductance 70
4.7 Nanopartides 73
References 76
5 Modeling the Structure and Stability of Charged Hemi-Micelles
at the Air-Water I nterface 79
Johannes Lyklema, Ana B. Jódar-Reyes, and Frans A.M. Leermakers
5.1 Introduction 79
5.2 Thermodynamics 80
5.3 Fundamentals of SCF Theory and the Molecular Model 82
5.3.1 The Lattice 82
5.3.2 From Volume Fractions to Potentials 83
5.3.3 From Potentials to Volume Fractions 86
5.3.4 Grand Potential 88
5.4 Results 90
5.4.1 Stability Analysis 91
5.4.2 Structural Analysis 94
5.5 Conclusions 95
References 96
6 Foam, Emulsion and Wetting Films Stabilized by Polymeric
Surfactants 97
Dotchi Exerowa and Dimo Platikanov
6.1 Introduction 97
6.2 Microinterferometric Method for Investigation of Thin
Liquid Films 98
6.3 Intercation Forces in Foam Films 100
6.3.1 Foam Films Stabilized by A-B-A Block Copolymers. Brush-to-Brush
Interaction 100
Contents VII
6.3.2 Foam Films Stabilized by Hydrophobically Modified Inulin Polymeric
Surfactants. Loop-to-Loop Interaction 103
6.4 Interaction Forces in Emulsión Films 106
6.4.1 Emulsion Films Stabilized by A-B-A Block Copolymers:
Brush-to-Brush Interaction and Transition to the Newton
Black Film 106
6.4.2 Emulsion Films Stabilized by Hydrophobically Modified Inulin:
Loop-to-Loop Interaction and Transition to the Newton
Black Film 108
6.4.3 Comparison of Film Stability and the Stability of a Real
Emulsion 112
6.5 Wetting Films Stabilized by Hydrophobically Modified Inulin
Polymeric Surfactant 113
6.6 Conclusion 115
References 116
7 Conditions for the Existence of a Stable Colloidal Liquid 119
Gerard J. Fleer and Remco Tuimer
7.1 Introduction 119
7.2 Theory 120
7.2.1 Free Energy 120
7.2.2 Yukawa Attraction 122
7.2.3 FVT ("Fix") 122
7.2.4 GFVT ("Var") 124
7.3 Phase Diagrams e(r|) 125
7.4 Phase Diagrams pv/kT Versus e/feT 128
7.5 Phase Diagrams pv/e Versus kT/e 131
7.6 Concluding Remarks 132
References 132
8 Preparation, Properties and Chemical Modification of Nanosized
Cellulose Fibrils 135
Per Stenius and Martin Andresen
8.1 Introduction 135
8.2 Microfibrillar Cellulose 135
8.3 Preparation of Microfibrillar and Nanocrystalline Cellulose 137
8.3.1 Acid Hydrolysis 137
8.3.2 High Shear Mechanical Treatment 138
8.3.3 Other Routes to Cellulose Microfibrils 140
8.4 Methods Used to Characterize Cellulose Microfibrils 140
8.4.1 Fibril Morphology and Structure 140
8.4.2 Fibril Surface Chemistry 141
8.5 Modification of Microfibril Surfaces 141
8.5.1 Esterification Reactions 142
8.5.1.1 Acetylation 142
VIII Contents
8.5.1.2 Reaction with Anhydrides 142
8.5.1.3 Carboxymethylation 143
8.5.1.4 Isocyanate Grafting 143
8.5.2 Etherification 144
8.5.2.1 Silylation 144
8.5.3 Nitration 145
8.5.4 Oxidation Reactions 145
8.5.4.1 TEMPO-Mediated Oxidation 145
8.5.4.2 Cerium Induced Grafting 146
8.5.5 Coating with Surfactant 146
8.6 Applications of Nanofibrillar Cellulose 147
8.6.1 Rheology 147
8.6.2 Nanocomposites 148
8.6.3 Thin Films 148
8.6.4 Dispersion Stabilizers 149
8.6.5 Biochemical and Biomédical Applications 149
8.6.5.1 Enzymatic Assay 150
8.6.5.2 Grafting of an Antimicrobial 150
8.6.6 Paper Products 151
8.7 Concluding Remarks 151
References 152
9 Melting/Freezing Phase Transitions in Confined Systems 155
Ludmila Boinovich and Alexandre Emelyanenko
9.1 Introduction 155
9.2 Surface Phase Transitions at the Plane Interface 158
9.3 Confinement by Curved Interfaces 166
9.3.1 Phase Transitions at the Surface and in the Interior of
Small Particles 169
9.3.2 Phase Transitions at the Interfaces and in the Interior of the
Substance Condensed in a Porous Matrix 172
9.4 Concluding Remarks 175
References 175
10 Manipulation of DNA by Surfactants 179
Björn Lindman, Rita S. Dias, M. Craça Miguel, M. Carmen Moran,
and Diana Costa
10.1 Introduction 179
10.2 Surfactants Bind to ds-DNA and Induce Compaction 1S1
10.3 Surfactant Addition Can Lead to Phase Separation of DNA 184
10.3.1 Effect of Salt 187
10.3.2 Effect of Temperature 188
10.4 DNA is an Amphiphilic Polyelectrolyte 189
10.5 Phase Separation Phenomena Underlie the Preparation of Novel
Particles 192
Contents IX
10.6 DNA Can be Crosslinked into Gels 196
10.7 Perspectives 199
References 200
11 Deposition of Colloid Particles at Heterogeneous Surfaces 203
Zbïgniew Adamczyk, Jakub Barbasz, and Mafgorzata Nattich
11.1 Introduction 203
11.2 Theoretical Models 204
11.2.1 Random Sequential Adsorption Approach 205
11.3 Illustrative Theoretical Results 207
11.3.1 Deposition at Quasi-Continuous Surfaces 207
11.3.2 Deposition at Random Site Surfaces 207
11.3.3 Particle Deposition at Surface Features 212
11.4 Comparison with Experimental Results 214
11.4.1 Deposition at Surface Features and Patterns 222
11.5 Concluding Remarks 224
References 225
12 Effect of the Interaction Between Heavy Crude Oil Components
and Stabilizing Solids with Different Wetting Properties 229
Simone Less, Andreas Hannisdal, Helene Magnusson,
andjohan Sjöblom
12.1 Introduction 229
12.2 Experimental 231
12.2.1 Extraction of Asphaltenes from the Crude Oils 231
12.2.2 Silica Particles: Characterization and Properties 231
12.2.3 Preparation of the Emulsions 232
12.2.4 Emulsion Stability Measurements and Drop Size Determination 233
12.3 Results and Discussion 234
12.3.1 Droplet Size Distributions 234
12.3.2 Viscosity Observations 234
12.3.3 Stability Measurements 236
12.4 Conclusions 242
References 244
13 Impact of M ¡cellar Kinetics on Dynamic Interfacial Properties
of Surfactant Solutions 247
Reinhard Miller, Boris A. Noskov, Valentin B. Fainerman,
andjordon T. Petkov
13.1 Introduction 247
13.2 Micellization Kinetics Mechanisms 249
13.3 Impact of Micelles on Adsorption Kinetics 250
13.4 Impact of Micelle Kinetics on Interfacial Dilational Visco-Elasticity 254
13.5 Summary 256
References 257
X Contents
14 Aggregation of Colloids: Recent Developments in Population
Balance Modeling 261
Ponisseril Somasundaran and Venkataramana Runkana
14.1 Introduction 261
14.2 Aggregation in Quiescent Environments 262
14.2.1 Models Incorporating Surface Forces 263
14.2.1.1 Aggregation in the Presence of Inorganic Electrolytes 264
14.2.1.2 Aggregation in the Presence of Polymers 266
14.3 Aggregation in Shear Environments 269
14.3.1 Models Incorporating Surface Forces 270
14.3.2 Models Incorporating Evolution of Aggregate Structure 271
14.3.3 Coupled Population Balance - Fluid Flow Models 272
14.4 Summary and Suggestions for Future Research 274
14.4.1 Multidimensional Population Balances 274
14.4.2 Polymer Adsorption Dynamics 275
14.4.3 Computationally Efficient Population Balance-Fluid Flow Models 275
14.4.4 Depletion Flocculation 275
References 276
15 Cubosomes as Delivery Vehicles 279
Nissim Carti, Idit Amar-Yuli, Dirna Libster, and Abraham Aserin
15.1 Introduction 279
15.2 Preparation Techniques 281
15.3 Drug Delivery Applications 282
15.4 Summary 288
References 288
16 Highly Concentrated (Cel) Emulsions as Reaction Media
for the Preparation of Advanced Materials 291
Conxita Solans andjordi Esquena
16.1 Introduction 291
16.2 Highly Concentrated Emulsions as Templates for Low-Density
Macroporous Materials 294
16.3 Materials with Dual Meso- and Macroporous Structure Templated
in Macroporous Foams Obtained From Highly Concentrated
Emulsions 295
16.4 Conclusions 296
References 297
Index 299 |
adam_txt |
Contents
Preface XI
Tharwat F. Tadros XÍ7Í
List of Contributors XVII
1 Orthokinetic Heteroflocculation in Papermaking 1
Theo CM. van de Ven
1.1 Introduction 1
1.2 Polymer-Induced Orthokinetic Heteroflocculation 2
1.2.1 Polymer Adsorption and Desorption on Fibers and Colloids 3
1.2.2 Deposition of Colloids on Fibers Subjected to Shear 5
1.2.3 Polymer Transfer 10
1.2.4 Time Dependence of Deposition and Detachment Rate Coefficients 12
1.3 Heteroflocculation Among Colloids 13
1.4 Heteroflocculation of Fines and Colloids 17
1.5 Concluding Remarks 18
References 19
2 Uptake and Release of Active Species into and from Microgel Particles 21
Melanie Bradley, Paul Davies, and Brian Vincent
2.1 Introduction to Microgel Particles 21
2.2 Absorption of Small Molecules 23
2.3 Absorption of Surfactants 25
2.4 Absorption of Polymers and Proteins 29
2.5 Absorption of Nanopartides 34
References 38
3 Stability of Fluorinated Systems: Structure-Mechanical Barrier
as a Factor of Strong Stabilization 41
Eugene D. Shchukin, Elena A. Amelina\ and Aksana M. Patfenova
3.1 Introduction 41
Highlights in Colloid Science. Edited by Dimo Platikanov and Dotchi Exerowa
Copyright © 2009 WILEY-VCH Verlag GmbH Co. KGaA, Weinheim
ISBN: 978-3-527-32O37-O
VI Contents
3.2 Rheological Studies of Interfacial Adsorption Layers in Fluorinated
Systems 42
3.3 Studies of the Rupture and Coalescence of Individual Droplets 44
3.4 Studies of the Interaction of Hydrophobized Solid Surfaces in Nonpolar
Liquids 47
3.5 Discussion 49
3.6 Conclusion 51
References 51
4 Particle Characterization Using Electro-Acoustic Spectroscopy 55
Richard W. O'Brien, James K. Beattie, and Robert J. Hunter
4.1 Introduction 55
4.2 Understanding the ESA Effect 55
4.3 The Dynamic Mobility 59
4.4 The Dynamic Mobility for Thin Double Layer Systems 63
4.5 Particles with Adsorbed Polymer Layers 65
4.6 Surface Conductance 70
4.7 Nanopartides 73
References 76
5 Modeling the Structure and Stability of Charged Hemi-Micelles
at the Air-Water I nterface 79
Johannes Lyklema, Ana B. Jódar-Reyes, and Frans A.M. Leermakers
5.1 Introduction 79
5.2 Thermodynamics 80
5.3 Fundamentals of SCF Theory and the Molecular Model 82
5.3.1 The Lattice 82
5.3.2 From Volume Fractions to Potentials 83
5.3.3 From Potentials to Volume Fractions 86
5.3.4 Grand Potential 88
5.4 Results 90
5.4.1 Stability Analysis 91
5.4.2 Structural Analysis 94
5.5 Conclusions 95
References 96
6 Foam, Emulsion and Wetting Films Stabilized by Polymeric
Surfactants 97
Dotchi Exerowa and Dimo Platikanov
6.1 Introduction 97
6.2 Microinterferometric Method for Investigation of Thin
Liquid Films 98
6.3 Intercation Forces in Foam Films 100
6.3.1 Foam Films Stabilized by A-B-A Block Copolymers. Brush-to-Brush
Interaction 100
Contents VII
6.3.2 Foam Films Stabilized by Hydrophobically Modified Inulin Polymeric
Surfactants. Loop-to-Loop Interaction 103
6.4 Interaction Forces in Emulsión Films 106
6.4.1 Emulsion Films Stabilized by A-B-A Block Copolymers:
Brush-to-Brush Interaction and Transition to the Newton
Black Film 106
6.4.2 Emulsion Films Stabilized by Hydrophobically Modified Inulin:
Loop-to-Loop Interaction and Transition to the Newton
Black Film 108
6.4.3 Comparison of Film Stability and the Stability of a Real
Emulsion 112
6.5 Wetting Films Stabilized by Hydrophobically Modified Inulin
Polymeric Surfactant 113
6.6 Conclusion 115
References 116
7 Conditions for the Existence of a Stable Colloidal Liquid 119
Gerard J. Fleer and Remco Tuimer
7.1 Introduction 119
7.2 Theory 120
7.2.1 Free Energy 120
7.2.2 Yukawa Attraction 122
7.2.3 FVT ("Fix") 122
7.2.4 GFVT ("Var") 124
7.3 Phase Diagrams e(r|) 125
7.4 Phase Diagrams pv/kT Versus e/feT 128
7.5 Phase Diagrams pv/e Versus kT/e 131
7.6 Concluding Remarks 132
References 132
8 Preparation, Properties and Chemical Modification of Nanosized
Cellulose Fibrils 135
Per Stenius and Martin Andresen
8.1 Introduction 135
8.2 Microfibrillar Cellulose 135
8.3 Preparation of Microfibrillar and Nanocrystalline Cellulose 137
8.3.1 Acid Hydrolysis 137
8.3.2 High Shear Mechanical Treatment 138
8.3.3 Other Routes to Cellulose Microfibrils 140
8.4 Methods Used to Characterize Cellulose Microfibrils 140
8.4.1 Fibril Morphology and Structure 140
8.4.2 Fibril Surface Chemistry 141
8.5 Modification of Microfibril Surfaces 141
8.5.1 Esterification Reactions 142
8.5.1.1 Acetylation 142
VIII Contents
8.5.1.2 Reaction with Anhydrides 142
8.5.1.3 Carboxymethylation 143
8.5.1.4 Isocyanate Grafting 143
8.5.2 Etherification 144
8.5.2.1 Silylation 144
8.5.3 Nitration 145
8.5.4 Oxidation Reactions 145
8.5.4.1 TEMPO-Mediated Oxidation 145
8.5.4.2 Cerium Induced Grafting 146
8.5.5 Coating with Surfactant 146
8.6 Applications of Nanofibrillar Cellulose 147
8.6.1 Rheology 147
8.6.2 Nanocomposites 148
8.6.3 Thin Films 148
8.6.4 Dispersion Stabilizers 149
8.6.5 Biochemical and Biomédical Applications 149
8.6.5.1 Enzymatic Assay 150
8.6.5.2 Grafting of an Antimicrobial 150
8.6.6 Paper Products 151
8.7 Concluding Remarks 151
References 152
9 Melting/Freezing Phase Transitions in Confined Systems 155
Ludmila Boinovich and Alexandre Emelyanenko
9.1 Introduction 155
9.2 Surface Phase Transitions at the Plane Interface 158
9.3 Confinement by Curved Interfaces 166
9.3.1 Phase Transitions at the Surface and in the Interior of
Small Particles 169
9.3.2 Phase Transitions at the Interfaces and in the Interior of the
Substance Condensed in a Porous Matrix 172
9.4 Concluding Remarks 175
References 175
10 Manipulation of DNA by Surfactants 179
Björn Lindman, Rita S. Dias, M. Craça Miguel, M. Carmen Moran,
and Diana Costa
10.1 Introduction 179
10.2 Surfactants Bind to ds-DNA and Induce Compaction 1S1
10.3 Surfactant Addition Can Lead to Phase Separation of DNA 184
10.3.1 Effect of Salt 187
10.3.2 Effect of Temperature 188
10.4 DNA is an Amphiphilic Polyelectrolyte 189
10.5 Phase Separation Phenomena Underlie the Preparation of Novel
Particles 192
Contents IX
10.6 DNA Can be Crosslinked into Gels 196
10.7 Perspectives 199
References 200
11 Deposition of Colloid Particles at Heterogeneous Surfaces 203
Zbïgniew Adamczyk, Jakub Barbasz, and Mafgorzata Nattich
11.1 Introduction 203
11.2 Theoretical Models 204
11.2.1 Random Sequential Adsorption Approach 205
11.3 Illustrative Theoretical Results 207
11.3.1 Deposition at Quasi-Continuous Surfaces 207
11.3.2 Deposition at Random Site Surfaces 207
11.3.3 Particle Deposition at Surface Features 212
11.4 Comparison with Experimental Results 214
11.4.1 Deposition at Surface Features and Patterns 222
11.5 Concluding Remarks 224
References 225
12 Effect of the Interaction Between Heavy Crude Oil Components
and Stabilizing Solids with Different Wetting Properties 229
Simone Less, Andreas Hannisdal, Helene Magnusson,
andjohan Sjöblom
12.1 Introduction 229
12.2 Experimental 231
12.2.1 Extraction of Asphaltenes from the Crude Oils 231
12.2.2 Silica Particles: Characterization and Properties 231
12.2.3 Preparation of the Emulsions 232
12.2.4 Emulsion Stability Measurements and Drop Size Determination 233
12.3 Results and Discussion 234
12.3.1 Droplet Size Distributions 234
12.3.2 Viscosity Observations 234
12.3.3 Stability Measurements 236
12.4 Conclusions 242
References 244
13 Impact of M ¡cellar Kinetics on Dynamic Interfacial Properties
of Surfactant Solutions 247
Reinhard Miller, Boris A. Noskov, Valentin B. Fainerman,
andjordon T. Petkov
13.1 Introduction 247
13.2 Micellization Kinetics Mechanisms 249
13.3 Impact of Micelles on Adsorption Kinetics 250
13.4 Impact of Micelle Kinetics on Interfacial Dilational Visco-Elasticity 254
13.5 Summary 256
References 257
X Contents
14 Aggregation of Colloids: Recent Developments in Population
Balance Modeling 261
Ponisseril Somasundaran and Venkataramana Runkana
14.1 Introduction 261
14.2 Aggregation in Quiescent Environments 262
14.2.1 Models Incorporating Surface Forces 263
14.2.1.1 Aggregation in the Presence of Inorganic Electrolytes 264
14.2.1.2 Aggregation in the Presence of Polymers 266
14.3 Aggregation in Shear Environments 269
14.3.1 Models Incorporating Surface Forces 270
14.3.2 Models Incorporating Evolution of Aggregate Structure 271
14.3.3 Coupled Population Balance - Fluid Flow Models 272
14.4 Summary and Suggestions for Future Research 274
14.4.1 Multidimensional Population Balances 274
14.4.2 Polymer Adsorption Dynamics 275
14.4.3 Computationally Efficient Population Balance-Fluid Flow Models 275
14.4.4 Depletion Flocculation 275
References 276
15 Cubosomes as Delivery Vehicles 279
Nissim Carti, Idit Amar-Yuli, Dirna Libster, and Abraham Aserin
15.1 Introduction 279
15.2 Preparation Techniques 281
15.3 Drug Delivery Applications 282
15.4 Summary 288
References 288
16 Highly Concentrated (Cel) Emulsions as Reaction Media
for the Preparation of Advanced Materials 291
Conxita Solans andjordi Esquena
16.1 Introduction 291
16.2 Highly Concentrated Emulsions as Templates for Low-Density
Macroporous Materials 294
16.3 Materials with Dual Meso- and Macroporous Structure Templated
in Macroporous Foams Obtained From Highly Concentrated
Emulsions 295
16.4 Conclusions 296
References 297
Index 299 |
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genre_facet | Aufsatzsammlung |
id | DE-604.BV035084605 |
illustrated | Illustrated |
index_date | 2024-07-02T22:08:26Z |
indexdate | 2024-07-20T09:51:43Z |
institution | BVB |
isbn | 9783527320370 |
language | English |
oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016752803 |
oclc_num | 271770590 |
open_access_boolean | |
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owner_facet | DE-703 DE-29T DE-19 DE-BY-UBM DE-91G DE-BY-TUM DE-634 DE-188 |
physical | XXI, 306 S. Ill., graph. Darst. |
publishDate | 2009 |
publishDateSearch | 2009 |
publishDateSort | 2009 |
publisher | Wiley-VCH |
record_format | marc |
spelling | Highlights in colloid science ed. by Dimo Platikanov ... Weinheim Wiley-VCH 2009 XXI, 306 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Colloïdes ram Colloids Kolloidchemie (DE-588)4134420-0 gnd rswk-swf Technische Chemie (DE-588)4078178-1 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Kolloidchemie (DE-588)4134420-0 s Technische Chemie (DE-588)4078178-1 s DE-604 Platikanov, Dimo 1936-2017 Sonstige (DE-588)136496954 oth text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3112711&prov=M&dok_var=1&dok_ext=htm Inhaltstext HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016752803&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
spellingShingle | Highlights in colloid science Colloïdes ram Colloids Kolloidchemie (DE-588)4134420-0 gnd Technische Chemie (DE-588)4078178-1 gnd |
subject_GND | (DE-588)4134420-0 (DE-588)4078178-1 (DE-588)4143413-4 |
title | Highlights in colloid science |
title_auth | Highlights in colloid science |
title_exact_search | Highlights in colloid science |
title_exact_search_txtP | Highlights in colloid science |
title_full | Highlights in colloid science ed. by Dimo Platikanov ... |
title_fullStr | Highlights in colloid science ed. by Dimo Platikanov ... |
title_full_unstemmed | Highlights in colloid science ed. by Dimo Platikanov ... |
title_short | Highlights in colloid science |
title_sort | highlights in colloid science |
topic | Colloïdes ram Colloids Kolloidchemie (DE-588)4134420-0 gnd Technische Chemie (DE-588)4078178-1 gnd |
topic_facet | Colloïdes Colloids Kolloidchemie Technische Chemie Aufsatzsammlung |
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