Microemulsions: background, new concepts, applications, perspectives
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| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Chichester
Wiley
2009
|
| Schlagworte: | |
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| Beschreibung: | XXIII, 375 S. Ill., graph. Darst. |
| ISBN: | 9781405167826 |
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| 245 | 1 | 0 | |a Microemulsions |b background, new concepts, applications, perspectives |c ed. by Cosima Stubenrauch |
| 264 | 1 | |a Chichester |b Wiley |c 2009 | |
| 300 | |a XXIII, 375 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 650 | 0 | |a Emulsions | |
| 650 | 4 | |a Emulsions | |
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| 655 | 7 | |0 (DE-588)4143413-4 |a Aufsatzsammlung |2 gnd-content | |
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| 689 | 0 | |5 DE-604 | |
| 700 | 1 | |a Stubenrauch, Cosima |e Sonstige |4 oth | |
| 856 | 4 | 2 | |m Digitalisierung UB Bayreuth |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016790082&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 856 | 4 | 2 | |m Digitalisierung UB Bayreuth |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016790082&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |3 Klappentext |
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Datensatz im Suchindex
| _version_ | 1804138100801142784 |
|---|---|
| adam_text | Contents
List of Contributors
xi
Preface
xiii
Some Thoughts about Microetnulsions
Björn Lindman
xv
1
Phase Behaviour,
Interfacial
Tension and Microstructure
of Microemulsions
Thomas
Sottmann
and Cosima
Stubenrauch 1
1.1
Introduction
1
1.2
Phase behaviour
2
1.2.1
Microemulsions with
alkyl polyglycol
ethers
3
1.2.2
Microemulsions with technical-grade non-ionic surfactants
13
1.2.3
Microemulsions with alkylpolyglucosides
14
1.2.4
Microemulsions with ionic surfactants
17
1.2.5
Microemulsions with non-ionic and ionic surfactants
22
1.3
Interfacial
tension
23
1.3.1
Adsorption of the surfactant
24
1.3.2
Interfacial
tension and phase behaviour
25
1.3.3
Tuning parameters for the
interfacial
tension
стаЬ
27
1.3.4
Scaling ofthe
interfacial
tension aab
30
1.4
Microstructure
31
1.4.1
Mean curvature of the amphiphilic film
32
1.4.2
Transmission electron microscopy
34
1.4.3
Estimation of length scales and overview of microstructure
38
1.5
Conclusion
40
Acknowledgement
42
Notes
42
References
42
vi
Contents
2
Scattering
Techniques
to Study the
Microstructure
of Microemulsions
Thomas Hellweg
48
2.1
Introduction
48
2.2
Scattering from droplet microemulsions
50
2.2.1
General outline
50
2.2.2
Quasi-elastic scattering from droplets: theory
50
2.2.3
Small angle neutron scattering from droplets
53
2.2.4
Examples
55
2.3
Scattering from bicontinuous microemulsions
58
2.3.1
Small angle scattering from bicontinuous microemulsions
59
2.3.2
Neutron spin-echo studies of bicontinuous microemulsions
61
2.3.3
Examples
62
2.4
Summary
65
2.5
Appendix
65
2.5.1
General remarks
65
2.5.2
Space and time correlation functions
66
References
78
3
Formulation of Microemulsions
Jean-Louis Sahger,
Raquel
Antón, Ana
Forgiarmi and Laura
Márquez
84
3.1
Basic
concepts
84
3.1.1
Microemulsions
84
3.1.2
Why is formulation important?
86
3.2
Representation of formulation effects
87
3.2.1
Unidimensional
formulation scan representation
88
3.2.2
Bidimensional
map representation
89
3.2.3
Other representations
91
3.3
Physico-chemical formulation yardsticks
92
3.3.1
Early formulation concepts
92
3.3.2
Correlations for the attainment of optimum formulation
94
3.3.3
Generalised formulation as SAD and HLD
101
3.4
Quality of formulation
104
3.4.1
Winsor s basic premise
104
3.4.2
Alcohol conventional effects
105
3.4.3
Linker effects
106
3.4.4
Extended surfactants
108
3.4.5
Quality and transparency
109
3.5
Formulations for special purposes
110
3.5.1
Surfactant mixing rules
110
3.5.2
Reduction in hydrophilicity with ionic-non-ionic
surfactant mixtures
112
3.5.3
Synergy with anionic-cationic surfactant mixtures
112
3.5.4
Temperature-insensitivity with anionic-non-ionic
surfactant mixtures
113
3.5.5
Effect of composition variables and fractionation problems
116
Contents
3.6 Final
comment
117
Acknowledgements
117
Notes
117
References
117
4
Effects of Polymers on the Properties of Microemulsions
Jürgen Allgaier
and
Henrich Frielinghaus
122
4.1
Introduction
122
4.2
Amphiphilic polymers
123
4.2.1
Phase behaviour and structure formation
123
4.2.2
Dynamic phenomena and network formation
131
4.3
Non-amphiphilic polymers
135
4.3.1
Repulsive interactions of polymers
136
4.3.2
Transition to adsorbing polymers and two adsorption
cases
139
4.3.3
Cluster formation and polymer-colloid interactions
143
References
144
5
Reactions in Organised Surfactant Systems
Reinhard Schomäcker
and Krister
Holmberg
148
5.1
Introduction
148
5.2
Motivation for surfactant systems as reaction media
149
5.3
Selected reactions
155
5.3.1
Nucleophilic substitution reactions
155
5.3.2
Regioselective synthesis
160
5.3.3
Hydrogénation
and hydroformylation reactions
163
5.4
Engineering aspects
166
5.4.1
Selection and tuning of surfactant systems
167
5.4.2
Type of organised surfactant system
169
5.4.3
Work-up procedures for product isolation
171
5.5
Conclusion
176
References
177
6
Microemulsions as Templates for Nanomaterials
Satya P. Moulik, Animesh K. Rahhit and
Ignác Čapek
180
6.1
Introduction
180
6.1.1
Basics of microemulsions
180
6.1.2
Synthesis of nanoparticles
183
6.1.3
Characterisation and properties of nanoparticles
183
6.2
Preparation of nanocompounds
185
6.2.1
Sulphides
186
6.2.2
Sulphates
187
6.2.3
Hydroxides
188
6.2.4
Oxides
188
viii Contents
6.2.5
Core-shell products
190
6.2.6
Miscellaneous
192
6.3
Metal and metal/polymer nanoparticles
193
6.3.1
General concepts
193
6.3.2 Anisotropie
metal nanoparticles
194
6.3.3
Core-shell metal nanoparticles
195
6.3.4
Core-shell metal/polymer nanoparticles
197
6.4
Outlook
200
Acknowledgements
202
References
202
7
Non-
Aqueous Microemulsions
Feng
Gao
and Carlos
С
Co
211
7.1
Introduction
211
7.2
Self-assembly in polymer blends
211
7.3
Self-assembly in room temperature ionic liquids
215
7.4
Self-assembly in supercritical CO2
217
7.5
Self-assembly in non-aqueous polar solvents
219
7.6
Self-assembly in sugar glasses
221
7.7
Conclusions
224
References
224
8
Microemulsions in Cosmetics and Detergents
Wolfgang
von
Rybinski, Matthias Hloucha and
Ingegärd
Johansson
230
8.1
Introduction
230
8.2
Microemulsions in cosmetics
230
8.2.1
Cleanser, bath oils, sunscreens, hair treatment
231
8.2.2
Improved skin and bio-compatibility
236
8.2.3
Carrier for skin actives
237
8.2.4
Perfume
238
8.2.5
The phase inversion temperature method
239
8.3
Microemulsions in detergency
242
8.3.1
Introduction
242
8.3.2
In situ formation of microemulsions
246
8.3.3
Direct use of microemulsions
248
References
254
9
Microemulsions: Pharmaceutical Applications
Vandana B.
Patravale and Abhijit A. Date
259
9.1
Introduction
259
9.2
Microemulsions
260
9.2.1
Overview of general advantages of microemulsions
260
9.2.2
Formulation considerations
261
9.2.3
Effect of temperature on microemulsions
267
Contents
9.2.4 Microemulsion characterisation
and evaluation
267
9.3
Applications in transdermal and dermal
delivery
268
9.3.1 Potential
mechanisms for improved
dermal/transdermal
transport
269
9.3.2 Microemulsions
as
smart dermal/transdermal
delivery vehicles
269
9.4
Applications in
oral drug delivery
275
9.4.1
Self-microemulsifying drug delivery systems
276
9.4.2
Oral delivery of peptides
279
9.5
Applications in parenteral drug delivery
281
9.5.1
Advantages of microemulsions in parenteral delivery
282
9.5.2
Formulation considerations
282
9.5.3
Potential explored
283
9.6
Applications in ocular drug delivery
285
9.6.1
Formulation considerations
285
9.6.2
Potential explored
286
9.7
Mucosal drug delivery
287
9.7.1
Potential explored
288
9.8
Microemulsions as templates for the synthesis of pharmaceutical
nanocarriers
289
9.8.1
Synthesis of solid
lipid nanoparticles
289
9.8.2
Synthesis of nanosuspensions
289
9.8.3
Engineering of nano-complexes
290
9.8.4 Microemulsion
polymerisation
291
9.9
Application in pharmaceutical analysis
291
9.10
Future perspectives
292
References
293
10 Microemulsions in Large-Scale Applications
Franz-Hubert Haegel, Juan Carlos Lopez, Jean-Louis Salager and
Sandra Engelskirchen
302
10.1
Introduction
302
10.1.1
General considerations
302
10.1.2
Products and processes
303
10.1.3
Requirements for large-scale applications
304
10.2
Soil decontamination
305
10.2.1
Requirements
305
10.2.2
Non-aqueous phase liquids
306
10.2.3
Microemulsion-forming systems
307
10.2.4
Use of preformed microemulsions
310
10.2.5
Challenges
311
10.3
Microemulsions in enhanced oil recovery
312
10.3.1
Why enhanced oil recovery and not alternative
fuels?
312
10.3.2
Why microemulsions?
313
10.3.3
Basic scientific and technical problems
315
Contents
10.3.4
Current state-of-the-art in enhanced oil recovery
321
10.3.5
Future GUESSTIMATES
324
10.4
Degreasing of leather
325
10.4.1
Washing processes
325
10.4.2
Leather degreasing via microemulsions
325
10.4.3
The degreasing mechanism
334
Acknowledgement
335
References
335
11
Future Challenges
Cosima
Stubenrauch
and
Reinhard Strey 345
11.1
Introduction
345
11.2
Bicontinuous microemulsions as templates
345
11.2.1
Why use bicontinuous microemulsions as templates?
345
11.2.2
What are the challenges?
347
11.2.3
What route is the most promising?
348
11.3
Nanofoams
351
11.3.1
Why synthesise nanofoams?
351
11.3.2
What are the challenges?
351
11.3.3
What route is the most promising?
351
11.4
Clean combustion of microemulsions
354
11.4.1
Why use microemulsions for fuel combustion?
354
11.4.2
What are the challenges?
355
11.4.3
What route is the most promising?
357
11.5
Solubilisation of
triglycérides
358
11.5.1
Road map to the solubilisation of
triglycérides
358
11.5.2
The linker concept
362
Acknowledgement
364
References
364
Index
367
Microemulsions
Background,
New Concepts,
Applications,
Perspectives
Edited by Cosima
Stubenrauch
School of Chemical and
Bioprocess
Engineering, University College Dublin, Ireland
Although first described over
50
years ago, the topic of microemulsions can nonetheless be regarded
as a relatively new area of research when, in the
1980s,
systematic studies and new sophisticated
techniques led to a better understanding of their behaviour. This, in turn, has facilitated improved
methods for formulating and tuning their properties. Microemulsions are becoming increasingly useful
in a range of industrial and research applications because microemulsions with special properties can
be formulated using surfactant mixtures, oil mixtures, and additives such as alcohols or electrolytes.
Written by a first class team of contributors, the comprehensive coverage of this text includes a
discussion on
•
phase behaviour,
interfacial
tension, and
microstructure
of microemulsions
•
scattering techniques to study the
microstructure
of microemulsions
•
the formulation of microemutsions
•
the effects of polymers on their properties and reactions in organised surfactant systems.
The book then goes on to present such topics as microemulsions as templates for nanomaterials,
and the applications of microemulsions in cosmetics and detergency, pharmaceutical and large-scale
applications. It concludes with a chapter on the future challenges associated with microemulsions.
This book will be essential reading for research chemists, technologists and engineers in the fine,
specialty chemicals and polymer industries, as well as being suitable for researchers in university or
government laboratories
-
especially for those at an early stage in their careers.
|
| adam_txt |
Contents
List of Contributors
xi
Preface
xiii
Some Thoughts about Microetnulsions
Björn Lindman
xv
1
Phase Behaviour,
Interfacial
Tension and Microstructure
of Microemulsions
Thomas
Sottmann
and Cosima
Stubenrauch 1
1.1
Introduction
1
1.2
Phase behaviour
2
1.2.1
Microemulsions with
alkyl polyglycol
ethers
3
1.2.2
Microemulsions with technical-grade non-ionic surfactants
13
1.2.3
Microemulsions with alkylpolyglucosides
14
1.2.4
Microemulsions with ionic surfactants
17
1.2.5
Microemulsions with non-ionic and ionic surfactants
22
1.3
Interfacial
tension
23
1.3.1
Adsorption of the surfactant
24
1.3.2
Interfacial
tension and phase behaviour
25
1.3.3
Tuning parameters for the
interfacial
tension
стаЬ
27
1.3.4
Scaling ofthe
interfacial
tension aab
30
1.4
Microstructure
31
1.4.1
Mean curvature of the amphiphilic film
32
1.4.2
Transmission electron microscopy
34
1.4.3
Estimation of length scales and overview of microstructure
38
1.5
Conclusion
40
Acknowledgement
42
Notes
42
References
42
vi
Contents
2
Scattering
Techniques
to Study the
Microstructure
of Microemulsions
Thomas Hellweg
48
2.1
Introduction
48
2.2
Scattering from droplet microemulsions
50
2.2.1
General outline
50
2.2.2
Quasi-elastic scattering from droplets: theory
50
2.2.3
Small angle neutron scattering from droplets
53
2.2.4
Examples
55
2.3
Scattering from bicontinuous microemulsions
58
2.3.1
Small angle scattering from bicontinuous microemulsions
59
2.3.2
Neutron spin-echo studies of bicontinuous microemulsions
61
2.3.3
Examples
62
2.4
Summary
65
2.5
Appendix
65
2.5.1
General remarks
65
2.5.2
Space and time correlation functions
66
References
78
3
Formulation of Microemulsions
Jean-Louis Sahger,
Raquel
Antón, Ana
Forgiarmi and Laura
Márquez
84
3.1
Basic
concepts
84
3.1.1
Microemulsions
84
3.1.2
Why is formulation important?
86
3.2
Representation of formulation effects
87
3.2.1
Unidimensional
formulation scan representation
88
3.2.2
Bidimensional
map representation
89
3.2.3
Other representations
91
3.3
Physico-chemical formulation yardsticks
92
3.3.1
Early formulation concepts
92
3.3.2
Correlations for the attainment of optimum formulation
94
3.3.3
Generalised formulation as SAD and HLD
101
3.4
Quality of formulation
104
3.4.1
Winsor's basic premise
104
3.4.2
Alcohol conventional effects
105
3.4.3
Linker effects
106
3.4.4
Extended surfactants
108
3.4.5
Quality and transparency
109
3.5
Formulations for special purposes
110
3.5.1
Surfactant mixing rules
110
3.5.2
Reduction in hydrophilicity with ionic-non-ionic
surfactant mixtures
112
3.5.3
Synergy with anionic-cationic surfactant mixtures
112
3.5.4
Temperature-insensitivity with anionic-non-ionic
surfactant mixtures
113
3.5.5
Effect of composition variables and fractionation problems
116
Contents
3.6 Final
comment
117
Acknowledgements
117
Notes
117
References
117
4
Effects of Polymers on the Properties of Microemulsions
Jürgen Allgaier
and
Henrich Frielinghaus
122
4.1
Introduction
122
4.2
Amphiphilic polymers
123
4.2.1
Phase behaviour and structure formation
123
4.2.2
Dynamic phenomena and network formation
131
4.3
Non-amphiphilic polymers
135
4.3.1
Repulsive interactions of polymers
136
4.3.2
Transition to adsorbing polymers and two adsorption
cases
139
4.3.3
Cluster formation and polymer-colloid interactions
143
References
144
5
Reactions in Organised Surfactant Systems
Reinhard Schomäcker
and Krister
Holmberg
148
5.1
Introduction
148
5.2
Motivation for surfactant systems as reaction media
149
5.3
Selected reactions
155
5.3.1
Nucleophilic substitution reactions
155
5.3.2
Regioselective synthesis
160
5.3.3
Hydrogénation
and hydroformylation reactions
163
5.4
Engineering aspects
166
5.4.1
Selection and tuning of surfactant systems
167
5.4.2
Type of organised surfactant system
169
5.4.3
Work-up procedures for product isolation
171
5.5
Conclusion
176
References
177
6
Microemulsions as Templates for Nanomaterials
Satya P. Moulik, Animesh K. Rahhit and
Ignác Čapek
180
6.1
Introduction
180
6.1.1
Basics of microemulsions
180
6.1.2
Synthesis of nanoparticles
183
6.1.3
Characterisation and properties of nanoparticles
183
6.2
Preparation of nanocompounds
185
6.2.1
Sulphides
186
6.2.2
Sulphates
187
6.2.3
Hydroxides
188
6.2.4
Oxides
188
viii Contents
6.2.5
Core-shell products
190
6.2.6
Miscellaneous
192
6.3
Metal and metal/polymer nanoparticles
193
6.3.1
General concepts
193
6.3.2 Anisotropie
metal nanoparticles
194
6.3.3
Core-shell metal nanoparticles
195
6.3.4
Core-shell metal/polymer nanoparticles
197
6.4
Outlook
200
Acknowledgements
202
References
202
7
Non-
Aqueous Microemulsions
Feng
Gao
and Carlos
С
Co
211
7.1
Introduction
211
7.2
Self-assembly in polymer blends
211
7.3
Self-assembly in room temperature ionic liquids
215
7.4
Self-assembly in supercritical CO2
217
7.5
Self-assembly in non-aqueous polar solvents
219
7.6
Self-assembly in sugar glasses
221
7.7
Conclusions
224
References
224
8
Microemulsions in Cosmetics and Detergents
Wolfgang
von
Rybinski, Matthias Hloucha and
Ingegärd
Johansson
230
8.1
Introduction
230
8.2
Microemulsions in cosmetics
230
8.2.1
Cleanser, bath oils, sunscreens, hair treatment
231
8.2.2
Improved skin and bio-compatibility
236
8.2.3
Carrier for skin actives
237
8.2.4
Perfume
238
8.2.5
The phase inversion temperature method
239
8.3
Microemulsions in detergency
242
8.3.1
Introduction
242
8.3.2
In situ formation of microemulsions
246
8.3.3
Direct use of microemulsions
248
References
254
9
Microemulsions: Pharmaceutical Applications
Vandana B.
Patravale and Abhijit A. Date
259
9.1
Introduction
259
9.2
Microemulsions
260
9.2.1
Overview of general advantages of microemulsions
260
9.2.2
Formulation considerations
261
9.2.3
Effect of temperature on microemulsions
267
Contents
9.2.4 Microemulsion characterisation
and evaluation
267
9.3
Applications in transdermal and dermal
delivery
268
9.3.1 Potential
mechanisms for improved
dermal/transdermal
transport
269
9.3.2 Microemulsions
as
smart dermal/transdermal
delivery vehicles
269
9.4
Applications in
oral drug delivery
275
9.4.1
Self-microemulsifying drug delivery systems
276
9.4.2
Oral delivery of peptides
279
9.5
Applications in parenteral drug delivery
281
9.5.1
Advantages of microemulsions in parenteral delivery
282
9.5.2
Formulation considerations
282
9.5.3
Potential explored
283
9.6
Applications in ocular drug delivery
285
9.6.1
Formulation considerations
285
9.6.2
Potential explored
286
9.7
Mucosal drug delivery
287
9.7.1
Potential explored
288
9.8
Microemulsions as templates for the synthesis of pharmaceutical
nanocarriers
289
9.8.1
Synthesis of solid
lipid nanoparticles
289
9.8.2
Synthesis of nanosuspensions
289
9.8.3
Engineering of nano-complexes
290
9.8.4 Microemulsion
polymerisation
291
9.9
Application in pharmaceutical analysis
291
9.10
Future perspectives
292
References
293
10 Microemulsions in Large-Scale Applications
Franz-Hubert Haegel, Juan Carlos Lopez, Jean-Louis Salager and
Sandra Engelskirchen
302
10.1
Introduction
302
10.1.1
General considerations
302
10.1.2
Products and processes
303
10.1.3
Requirements for large-scale applications
304
10.2
Soil decontamination
305
10.2.1
Requirements
305
10.2.2
Non-aqueous phase liquids
306
10.2.3
Microemulsion-forming systems
307
10.2.4
Use of preformed microemulsions
310
10.2.5
Challenges
311
10.3
Microemulsions in enhanced oil recovery
312
10.3.1
Why enhanced oil recovery and not alternative
fuels?
312
10.3.2
Why microemulsions?
313
10.3.3
Basic scientific and technical problems
315
Contents
10.3.4
Current state-of-the-art in enhanced oil recovery
321
10.3.5
Future 'GUESSTIMATES'
324
10.4
Degreasing of leather
325
10.4.1
Washing processes
325
10.4.2
Leather degreasing via microemulsions
325
10.4.3
The degreasing mechanism
334
Acknowledgement
335
References
335
11
Future Challenges
Cosima
Stubenrauch
and
Reinhard Strey 345
11.1
Introduction
345
11.2
Bicontinuous microemulsions as templates
345
11.2.1
Why use bicontinuous microemulsions as templates?
345
11.2.2
What are the challenges?
347
11.2.3
What route is the most promising?
348
11.3
Nanofoams
351
11.3.1
Why synthesise nanofoams?
351
11.3.2
What are the challenges?
351
11.3.3
What route is the most promising?
351
11.4
Clean combustion of microemulsions
354
11.4.1
Why use microemulsions for fuel combustion?
354
11.4.2
What are the challenges?
355
11.4.3
What route is the most promising?
357
11.5
Solubilisation of
triglycérides
358
11.5.1
Road map to the solubilisation of
triglycérides
358
11.5.2
The linker concept
362
Acknowledgement
364
References
364
Index
367
Microemulsions
Background,
New Concepts,
Applications,
Perspectives
Edited by Cosima
Stubenrauch
School of Chemical and
Bioprocess
Engineering, University College Dublin, Ireland
Although first described over
50
years ago, the topic of microemulsions can nonetheless be regarded
as a relatively new area of research when, in the
1980s,
systematic studies and new sophisticated
techniques led to a better understanding of their behaviour. This, in turn, has facilitated improved
methods for formulating and tuning their properties. Microemulsions are becoming increasingly useful
in a range of industrial and research applications because microemulsions with special properties can
be formulated using surfactant mixtures, oil mixtures, and additives such as alcohols or electrolytes.
Written by a first class team of contributors, the comprehensive coverage of this text includes a
discussion on
•
phase behaviour,
interfacial
tension, and
microstructure
of microemulsions
•
scattering techniques to study the
microstructure
of microemulsions
•
the formulation of microemutsions
•
the effects of polymers on their properties and reactions in organised surfactant systems.
The book then goes on to present such topics as microemulsions as templates for nanomaterials,
and the applications of microemulsions in cosmetics and detergency, pharmaceutical and large-scale
applications. It concludes with a chapter on the future challenges associated with microemulsions.
This book will be essential reading for research chemists, technologists and engineers in the fine,
specialty chemicals and polymer industries, as well as being suitable for researchers in university or
government laboratories
-
especially for those at an early stage in their careers. |
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| illustrated | Illustrated |
| index_date | 2024-07-02T22:21:43Z |
| indexdate | 2024-07-09T21:22:49Z |
| institution | BVB |
| isbn | 9781405167826 |
| language | English |
| lccn | 2008013076 |
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| spelling | Microemulsions background, new concepts, applications, perspectives ed. by Cosima Stubenrauch Chichester Wiley 2009 XXIII, 375 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Emulsions Mikroemulsion (DE-588)4169812-5 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Mikroemulsion (DE-588)4169812-5 s DE-604 Stubenrauch, Cosima Sonstige oth Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016790082&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016790082&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext |
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| subject_GND | (DE-588)4169812-5 (DE-588)4143413-4 |
| title | Microemulsions background, new concepts, applications, perspectives |
| title_auth | Microemulsions background, new concepts, applications, perspectives |
| title_exact_search | Microemulsions background, new concepts, applications, perspectives |
| title_exact_search_txtP | Microemulsions background, new concepts, applications, perspectives |
| title_full | Microemulsions background, new concepts, applications, perspectives ed. by Cosima Stubenrauch |
| title_fullStr | Microemulsions background, new concepts, applications, perspectives ed. by Cosima Stubenrauch |
| title_full_unstemmed | Microemulsions background, new concepts, applications, perspectives ed. by Cosima Stubenrauch |
| title_short | Microemulsions |
| title_sort | microemulsions background new concepts applications perspectives |
| title_sub | background, new concepts, applications, perspectives |
| topic | Emulsions Mikroemulsion (DE-588)4169812-5 gnd |
| topic_facet | Emulsions Mikroemulsion Aufsatzsammlung |
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