Hydrogel micro and nanoparticles:
Gespeichert in:
| Weitere Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Weinheim
Wiley-VCH-Verl.
2012
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Literaturangaben |
| Beschreibung: | XXIII, 406 S. Ill., graph. Darst. 25 cm |
| ISBN: | 9783527330331 352733033X |
Internformat
MARC
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| 245 | 1 | 0 | |a Hydrogel micro and nanoparticles |c ed. by L. Andrew Lyon and Michael Joseph Serpe |
| 264 | 1 | |a Weinheim |b Wiley-VCH-Verl. |c 2012 | |
| 300 | |a XXIII, 406 S. |b Ill., graph. Darst. |c 25 cm | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 500 | |a Literaturangaben | ||
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| 700 | 1 | |a Lyon, L. Andrew |0 (DE-588)1025885597 |4 edt | |
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Datensatz im Suchindex
| _version_ | 1804150325048770560 |
|---|---|
| adam_text | IMAGE 1
V
CONTENTS
LIST O F CONTRIBUTORS X I I I
FOREWORD X I X
PREFACE X X I I I
1 THERMALLY SENSITIVE MICROGELS: FROM BASIC SCIENCE T O APPLICATIONS 1
HE CHENG AND CUANGZHAO ZHANG 1.1 INTRODUCTION 1
1.2 THEORETICAL BACKGROUND 2
1.2.1 T H E R M O D Y N A M I C S O F VOLUME P H A S E TRANSITION 2
1.2.2 INTERNAL MOTION 3
1.2.3 DYNAMICS O F MICROGEL 4
1.2.4 KINETICS CALCULATION O F REVERSIBLE AGGREGATION 6
1.3 BASIC PHYSICS O F MICROGELS 7
1.3.1 VOLUME PHASE TRANSITION 7
1.3.2 INTERNAL MOTION 9
1.3.2.1 INTERNAL MOTIONS I N GOOD SOLVENT 9
1.3.2.2 INTERNAL MOTIONS I N 0 A N D POOR SOLVENTS 11
1.3.3 DYNAMICS O F CATION-INDUCED AGGREGATION O F THERMALLY SENSITIVE
MICROGELS 14
1.3.3.1 SALT-INDUCED COMPLEXATION 14
1.3.3.2 COMPLEXATION BETWEEN MICROGELS A N D PROTEIN 18 1.3.3.3
AGGREGATION O F SPHERICAL MICROGELS 18 1.3.4 NON-ERGODIC A N D ERGODIC P
H E N O M E N A O F PHYSICAL CROSSLINKED GEL 21
1.4 APPLICATIONS 2 5
1.5 CONCLUSIONS 2 7
REFERENCES 2 9
2 THERMOSENSITIVE CORE-SHELL MICROGELS: BASIC CONCEPTS A N D
APPLICATIONS 3 3 YAN LU AND MATTHIAS BALLAUJF 2.1 INTRODUCTION 3 3
2.2 VOLUME TRANSITION I N SINGLE PARTICLES 3 5
HTTP://D-NB.INFO/1018250026
IMAGE 2
V I CONTENTS
2.3 CONCENTRATED SUSPENSIONS: 3D CRYSTALLIZATION 4 0
2.4 PARTICLES O N SURFACES: 2D CRYSTALLIZATION 4 1
2.5 CONCENTRATED SUSPENSIONS: RHEOLOGY 4 2
2.6 CORE-SHELL PARTICLES AS CARRIERS FOR CATALYSTS 4 5
2.6.1 METAL NANOPARTICLES 4 5
2.6.2 E N Z Y M E S 5 0
2.7 CONCLUSION 5 3
REFERENCES 5 4
3 CORE-SHELL PARTICLES WITH A TEMPERATURE-SENSITIVE SHELL 63
HARUMA KAWAGUCHI
3.1 INTRODUCTION 63
3.2 PREPARATION O F CORE-SHELL PARTICLES WITH A TEMPERATURE-
SENSITIVE SHELL 63
3.2.1 SPONTANEOUS FORMATION O F T H E CORE-SHELL STRUCTURE
VIA E M U L S I O N POLYMERIZATION A N D SOAP-FREE EMULSION
POLYMERIZATION 63 3.2.2 FORMATION O F A TEMPERATURE-SENSITIVE SHELL BY
SEEDED POLYMERIZATION 66
3.3 PREPARATION O F HAIRY PARTICLES W I T H TEMPERATURE-SENSITIVE H A I
R 66
3.3.1 HAIRY PARTICLE FORMATION F R O M BLOCK COPOLYMER MICELLES 6 7
3.3.2 HAIRY PARTICLE FORMATION T H R O U G H I N SITU FORMATION O F
SURFACE ACTIVE MATERIAL 6 8
3.3.3 HAIRY PARTICLE FORMATION T H R O U G H H A I R GROWTH O N C O R E
PARTICLES 6 8
3.3.3.1 HAIRY PARTICLE FORMATION T H R O U G H H A I R GROWTH O N RIGID
C O R E PARTICLES 6 9
3.3.3.2 HAIRY PARTICLE FORMATION T H R O U G H H A I R GROWTH O N
MICROGELS 7 0 3.3.3.3 GRAFT POLYMERIZATION O F NIPAM F R O M A C M C
MICROGEL U S I N G T H E CERIC I O N REDOX SYSTEM 71
3.3.4 HAIRY PARTICLE FORMATION T H R O U G H T H E A T T A C H M E N T O
F HYDROPHILIC POLYMER C H A I N S TO T H E SURFACE O F CORE PARTICLES
(GRAFTING-TO METHOD) 73
3.4 PROPERTIES, FUNCTIONS A N D APPLICATIONS O F CORE-SHELL PARTICLES
W I T H A TEMPERATURE-SENSITIVE SHELL 75 3.4.1 VOLUME P H A S E
TRANSITION O F T H E TEMPERATURE-SENSITIVE SHELL A N D ACCOMPANYING C H
A N G E S I N PHYSICAL PROPERTIES O F T H E PARTICLES 7 5 3.4.2
TWO-DIMENSIONAL ASSEMBLY O F HAIRY PARTICLES A N D OPTICAL
PROPERTIES 76
3.4.3 O T H E R 2D ASSEMBLY - TEMPERATURE-SENSITIVE PICKERING E M U L S
I O N BY P N I P A M HAIRY PARTICLES 7 7 3.4.4 FLUORESCENCE RESONANCE
ENERGY TRANSFER (FRET) PARTICLES T U N E D BY TEMPERATURE 7 7
3.5 CONCLUSIONS 7 8
REFERENCES 79
IMAGE 3
CONTENTS V I I
4 PH-RESPONSIVE NANOGELS: SYNTHESIS A N D PHYSICAL PROPERTIES 81
BENG HOON TAN, JEREMY PANG KERN TAN, AND KAM CHIU T A M 4.1 INTRODUCTION
81
4.2 PREPARATION TECHNIQUES FOR PH-RESPONSIVE NANOGELS 8 2
4.2.1 EMULSION POLYMERIZATION 8 2
4.2.2 PHYSICAL SELF-ASSEMBLY O F INTERACTIVE POLYMERS 8 4
4.3 STRUCTURAL PROPERTIES O F PH-RESPONSIVE NANOGELS 8 5
4.3.1 DISTRIBUTION O F CROSSLINKING M O N O M E R S 8 5
4.3.2 KINETIC MODELING O F FUNCTIONAL G R O U P DISTRIBUTIONS I N
NANOGELS 86
4.4 SWELLING O F PH-RESPONSIVE NANOGELS 8 7
4.4.1 M E C H A N I S M O F PH-RESPONSIVE SWELLING 8 7
4.4.2 THEORY O F SWELLING A N D ELASTICITY O F PH-RESPONSIVE NANOGELS 91
4.4.3 EFFECT O F IONIC STRENGTH 93
4.5 RHEOLOGICAL BEHAVIOR O F PH-RESPONSIVE NANOGELS 96
4.6 APPROACH TO MODEL PH-RESPONSIVE NANOGEL PROPERTIES 9 7
4.7 OSMOTIC COMPRESSIBILITY O F PH-RESPONSIVE NANOGELS I N COLLOIDAL
SUSPENSIONS 106 4.8 CONCLUSIONS A N D FUTURE PERSPECTIVES 109
REFERENCES 110
5 POLY(N-VINYLCAPROLACTAM) N A N O - A N D MICROGELS 117
CHENG CHENG AND ANDRIJ PICH 5.1 INTRODUCTION 117
5.2 POLY(N-VINYLCAPROLACTAM): SYNTHESIS, STRUCTURE A N D PROPERTIES I N
SOLUTION 117
5.3 T H E R M A L BEHAVIOR O F POLY(N-VINYLCAPROLACTAM) I N WATER 120
5.4 PVCL NANO- A N D MICROGELS 123
5.4.1 H O M O P O L Y M E R PVCL MICROGELS 125
5.4.2 COPOLYMER PVCL MICROGELS 129
5.4.3 COMPOSITE A N D HYBRID MICROGELS 133
5.5 CONCLUSIONS 137
REFERENCES 137
6 DOUBLY CROSSLINKED MICROGELS 141
BRIAN R. SAUNDERS
6.1 INTRODUCTION 141
6.1.1 DEFINITIONS A N D CLASSIFICATIONS O F SX A N D DX MICROGELS 141
6.1.2 A BRIEF HISTORY O F DOUBLY CROSSLINKED MICROGELS 142
6.1.3 STIMULUS-RESPONSIVE DX MICROGELS 143
6.1.4 GENERAL EQUATIONS GOVERNING HYDROGEL SWELLING 143
6.1.5 GENERAL EQUATIONS GOVERNING HYDROGEL MECHANICAL PROPERTIES 144
6.2 METHODS O F PREPARATION 145
6.2.1 DX MICROGEL AGGREGATES 146
IMAGE 4
V I I I CONTENTS
6.2.2 MICROGEL CROSSLINKED HYDROGELS 146
6.2.3 MICROGEL-REINFORCED HYDROGELS 146
6.2.4 DX MICROGEL CRYSTALS BY SMALL MOLECULE ADDITION 147
6.2.5 SELF-CROSSLINKED DX MICROGEL CRYSTALS 147
6.2.6 INTERPENETRATING DX MICROGELS 148
6.3 METHODS O F CHARACTERIZATION 148
6.3.1 1 H NUCLEAR MAGNETIC RESONANCE 148
6.3.2 CONFOCAL MICROSCOPY 149
6.3.3 SCANNING ELECTRON MICROSCOPY 150
6.3.4 SWELLING EXPERIMENTS 150
6.3.5 OPTICAL 152
6.3.6 DYNAMIC RHEOLOGY 153
6.3.7 C O M P R E S S I O N M O D U L U S M E A S U R E M E N T S 154
6.3.8 TENSILE TESTING 154
6.4 MORPHOLOGY 155
6.4.1 MORPHOLOGY TYPES 155
6.4.2 MORPHOLOGY CONTROL 156
6.5 PROPERTIES 157
6.5.1 SWELLING PROPERTIES O F DX MICROGELS A N D CONTROL 157
6.5.2 OPTICAL T U N I N G 158
6.5.3 MECHANICAL PROPERTIES O F DX MICROGELS A N D CONTROL 158
6.5.4 C O M P A R I S O N O F PROPERTIES W I T H MICROGELS 161
6.5.5 C O M P A R I S O N O F PROPERTIES W I T H CONVENTIONAL
HYDROGELS 162
6.6 POTENTIAL APPLICATIONS 162
6.6.1 PHOTONIC APPLICATIONS 162
6.6.2 BIOMEDICAL APPLICATIONS 163
6.7 CONCLUSION 165
REFERENCES 166
7 ATRP: A VERSATILE TOOL TOWARD UNIFORMLY CROSSLINKED HYDROGELS WITH
CONTROLLED ARCHITECTURE A N D MULTIFUNCTIONALITY 169
JEONG AE YOON,JUNG KWON OB, WENWEN LI, TOMASZ KOWALEWSKI, AND KRZYSZTOF
MATYJASZEWSKI 7.1 INCORPORATING CROSSLINKING REACTIONS INTO CONTROLLED
RADICAL POLYMERIZATION 169
7.2 EFFECT O F NETWORK H O M O G E N E I T Y O N T H E R M O R E S P O N
S I V E HYDROGEL
PERFORMANCE 171
7.2.1 PERFORMANCE O F MACROSCOPIC HYDROGELS 172
7.2.2 MOLECULAR LEVEL DEHYDRATION KINETICS 175
7.3 GEL NETWORKS C O N T A I N I N G FUNCTIONALIZED NANOPORES 176
7.3.1 E N H A N C E D SWELLING RATIOS 178
7.3.2 ACCELERATED DESWELLING KINETICS 178
7.4 TOWARD MICRO- A N D NANO-SIZED HYDROGELS B Y ATRP 180
REFERENCES 184
IMAGE 5
CONTENTS
8 NANOGEL ENGINEERING BY ASSOCIATING POLYMERS FOR BIOMEDICAL
APPLICATIONS 187 YOSHIHIRO SASAKI AND KAZUNARI AKIYOSHI 8.1 INTRODUCTION
187
8.2 PREPARATION O F ASSOCIATING POLYMER-BASED NANOGELS
8.2.1 HYDROPHOBICALLY MODIFIED POLYSACCHARIDE 188 8.2.2 PHOTORESPONSIVE
MOLECULE-MODIFIED POLYSACCHARIDES 8.2.3 THERMORESPONSIVE POLYMER-GRAFTED
POLYSACCHARIDE
8.2.4 METAL-LIGAND MODIFIED POLYSACCHARIDES 192
8.2.5 SILOXANE-MODIFIED POLYSACCHARIDES 193 8.2.6 PROTEIN-CROSSLINKED
NANOGELS 193
8.3 FUNCTIONS O F SELF-ASSEMBLED NANOGELS 194
8.3.1 NANO-ENCAPSULATION O F PROTEINS B Y T H E NANOGEL: NANOGELS A S
MACROMOLECULAR H O S T S 194
8.3.2 ARTIFICIAL MOLECULAR C H A P E R O N E S 195
8.3.3 NANOGEL C H A P E R O N E S I N CELL-FREE PROTEIN SYNTHESIS 196
8.4 APPLICATION O F POLYSACCHARIDE NANOGELS TO DDS 197
8.4.1 PROTEIN DELIVERY 198
8.4.2 NUCLEIC ACID DELIVERY 199
8.5 INTEGRATION O F NANOGELS 199
8.6 CONCLUSION A N D PERSPECTIVES 202
REFERENCES 202
9 MICROGELS A N D BIOLOGICAL INTERACTIONS 209
MICHAEL H. SMITH, ANTOINETTE B. SOUTH, AND L. ANDREW LYON 9.1 A N
INTRODUCTION TO POLYMER BIOMATERIALS 209
9.1.1 HYDROGELS 2 1 0
9.1.2 HYDROGELS AS PARTICLES 211
9.1.3 HYDROGEL PARTICLE SYNTHESIS 212
9.2 D R U G DELIVERY 213
9.2.1 NANOPARTICLES A N D T H E M O N O N U C L E A R PHAGOCYTIC SYSTEM
214
9.2.2 NANOPARTICLE SIZE A N D SURFACE MODIFICATION FOR E N H A N C E D
DELIVERY 214
9.2.3 NANOGEL CELLULAR TARGETING 216
9.2.3.1 PASSIVE TARGETING: T H E E N H A N C E D PERMEABILITY A N D
RETENTION EFFECT 216
9.2.3.2 ACTIVE TARGETING: NANOPARTICLE BIOCONJUGATION 2 1 7 9.2.4
DEGRADATION A N D RELEASE O F ENCAPSULATED CARGO 2 2 0
9.2.4.1 RELEASE BY REDUCTION 2 2 0
9.2.4.2 RELEASE BY P H C H A N G E S 220
9.3 BIOMATERIAL FILMS 221
9.3.1 T H E FOREIGN BODY RESPONSE 2 2 2
9.3.2 HYDROGELS AS A BIOMATERIAL INTERFACE 223
9.3.3 ANTIFOULING SURFACES 224
9.3.4 CELLULAR ADHESION 2 2 5
188
190 191
IMAGE 6
X CONTENTS
9.3.5 D R U G RELEASE 2 2 7
9.4 CONCLUSION 228
REFERENCES 229
10 OSCILLATING MICROGELS DRIVEN BY CHEMICAL REACTIONS 237
DAISUKE SUZUKI
10.1 INTRODUCTION 237
10.2 TYPES O F OSCILLATING MICROGELS 238
10.3 SYNTHESIS A N D FABRICATION O F OSCILLATING MICROGELS 240
10.4 CONTROL O F OSCILLATORY BEHAVIOR 241
10.4.1 EFFECT O N INDUCTION PERIOD 242
10.4.2 EFFECT O N OSCILLATION AMPLITUDE 244
10.4.3 EFFECT O N OSCILLATION PERIOD A N D WAVEFORMS 247
10.5 FLOCCULATING/DISPERSING OSCILLATION 251
10.6 CONCLUDING R E M A R K S 254
REFERENCES 254
11 S M A R T MICROGEL/NANOPARTIDE HYBRIDS WITH TUNABLE OPTICAL
PROPERTIES 257
MATTHIAS KARG A N D THOMAS HELLWEG 11.1 INTRODUCTION 257
11.2 SYNTHESIS O F HYBRID GELS 258
11.3 CHARACTERIZATION O F HYBRID GELS 2 6 0
11.4 HYBRID MICROGELS WITH P L A S M O N PROPERTIES 261
11.5 P H O T O L U M I N E S C E N T H Y B R I D MICROGELS 2 6 9
11.6 S U M M A R Y 2 7 2
REFERENCES 274
12 MACROSCOPIC MICROGEL NETWORKS 281
TODD HOARE
12.1 INTRODUCTION A N D MOTIVATION 281
12.2 PREPARATION O F MICROGEL NETWORKS 284
12.2.1 NETWORKING STRATEGIES 284
12.2.2 DIRECT MICROGEL CROSSLINKING 285
12.2.2.1 HYDROPHOBIC ASSEMBLY 285
12.2.2.2 IONIC ASSEMBLY 287
12.2.2.3 COVALENT ASSEMBLY 289
12.2.3 MICROGEL-MEDIATED CROSSLINKING 2 9 0
12.2.3.1 INITIATOR-GRAFTED MICROGELS 2 9 0 12.2.3.2
SURFACE-POLYMERIZABLE MICROGELS 291 12.2.3.3 SURFACE-REACTIVE MICROGELS
293 12.2.4 PHYSICAL MICROGEL E N T R A P M E N T 2 9 5
12.2.4.1 E N T R A P M E N T TO F O R M 3D HYDROGELS 295
12.2.4.2 E N T R A P M E N T TO F O R M 2D FILMS 299
12.3 APPLICATIONS O F MICROGEL NETWORKS 301
IMAGE 7
12.3.1
12.3.2 12.3.3 12.3.4 12.3.5
12.3.6 12.3.7 12.4
13
13.1 13.2 13.2.1 13.2.2 13.2.3
13.2.4 13.3
14
14.1 14.2 14.2.1 14.2.2
14.2.2.1 14.2.2.2 14.2.2.3 14.2.2.4
14.2.3 14.2.4 14.2.5 14.2.6
14.3 14.4 14.4.1 14.4.2
14.4.3 14.5
CONTENTS X I
D R U G DELIVERY 301
CELL ADHESION-DIRECTING COATINGS 304 TISSUE ENGINEERING 3 0 4 BIOSENSORS
307
OPTICAL MATERIALS 309 BIOMOLECULE SEPARATION A N D PURIFICATION 309
D N A SEQUENCING 310 CONCLUSIONS A N D FUTURE OUTLOOK 3 1 0 REFERENCES
311
COLOR-TUNABLE POLY (N-LSOPROPYLACRYLAMIDE) MICROGEL-BASED ETALONS:
FABRICATION, CHARACTERIZATION, A N D APPLICATIONS 317 MICHAEL J. SERPE,
COURTNEY D. SORRELL, MATTHEW C.D. CARTER, IAN N. HEPPNER, JANELLE B.
SMILEY-WIENS, A N D LIANG H U
INTRODUCTION 3 1 7
MICROGEL-BASED PHOTONIC MATERIALS 319 MICROGEL-BASED ETALONS 3 2 0 T U N
I N G T H E REFLECTION O R D E R 323 M E C H A N I S M O F ETALON
DESWELLING 324
APPLIED SENSING 329 CONCLUSIONS A N D FUTURE DIRECTIONS 330 REFERENCES
332
CRYSTALS O F MICROGEL PARTICLES 337 JUAN JOSE LIETOR-SANTOS, URS CASSER,
J U N ZHOU, ZHIBING HU, AND ALBERTO FERNANDEZ-NIEVES INTRODUCTION 3 3 7
THEORETICAL BACKGROUND A N D EXPERIMENTAL METHODS 3 3 9 CRYSTAL
NUCLEATION A N D GROWTH 339 CRYSTALLINE STRUCTURE 340 BODY-CENTERED
CUBIC 3 4 0
FACE-CENTERED CUBIC 341 HEXAGONAL A N D HEXAGONAL CLOSE-PACKED 3 4 2
A15 343
SCATTERING O F WAVES F R O M CRYSTALS 343
SMALL-ANGLE N E U T R O N SCATTERING 3 4 5 EXPERIMENTAL DETAILS 351
EXPERIMENTAL SYSTEM 3 5 2 D E T E R M I N I N G A N D MODELING T H E
PARTICLE F O R M FACTOR 3 5 3
STRUCTURE FACTOR O F CONCENTRATED SUSPENSIONS 3 5 7 PHASE BEHAVIOR 3 5 7
ANALYSIS O F T H E STRUCTURE FACTOR FOR CRYSTALLINE SAMPLES 3 5 8 T U N
I N G POLYDISPERSITY 361 FINAL REMARKS A N D FUTURE DIRECTIONS 3 6 5
REFERENCES 366
IMAGE 8
X I I C O N T E N T S
1 5 DYNAMICAL ARREST A N D CRYSTALLIZATION IN D E N S E MICROGEL
SUSPENSIONS 3 6 9
PRITI MOHANTY, DII/YA PALOLI, JEROME CRASSOUS, A N D PETER
SCHURTENBERGER 15.1 INTRODUCTION 3 6 9
15.2 M E T H O D S 372
15.3 SYNTHESIS A N D RESPONSIVE PROPERTIES 374
15.4 STRUCTURAL A N D DYNAMIC PROPERTIES O F NEUTRAL MICROGELS 3 7 9
15.5 STRUCTURAL A N D DYNAMIC PROPERTIES O F SOFT A N D WEAKLY CHARGED
MICROGELS 388
15.6 CONCLUSIONS A N D OUTLOOK: PROBING ANISOTROPIC INTERACTIONS 391
REFERENCES 3 9 4
INDEX 3 9 7
|
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| ctrlnum | (OCoLC)812179624 (DE-599)DNB1018250026 |
| dewey-full | 660.294513 |
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| discipline | Chemie / Pharmazie |
| format | Book |
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| id | DE-604.BV040999018 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T00:37:07Z |
| institution | BVB |
| isbn | 9783527330331 352733033X |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-025976661 |
| oclc_num | 812179624 |
| open_access_boolean | |
| owner | DE-29T |
| owner_facet | DE-29T |
| physical | XXIII, 406 S. Ill., graph. Darst. 25 cm |
| publishDate | 2012 |
| publishDateSearch | 2012 |
| publishDateSort | 2012 |
| publisher | Wiley-VCH-Verl. |
| record_format | marc |
| spelling | Hydrogel micro and nanoparticles ed. by L. Andrew Lyon and Michael Joseph Serpe Weinheim Wiley-VCH-Verl. 2012 XXIII, 406 S. Ill., graph. Darst. 25 cm txt rdacontent n rdamedia nc rdacarrier Literaturangaben Nanostrukturiertes Material (DE-588)4342626-8 gnd rswk-swf Hydrogel (DE-588)4160909-8 gnd rswk-swf Kern-Schale-Struktur (DE-588)4659381-0 gnd rswk-swf Mikrogel (DE-588)4169820-4 gnd rswk-swf Hydrogel (DE-588)4160909-8 s Mikrogel (DE-588)4169820-4 s Nanostrukturiertes Material (DE-588)4342626-8 s Kern-Schale-Struktur (DE-588)4659381-0 s DE-604 Lyon, L. Andrew (DE-588)1025885597 edt DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025976661&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Hydrogel micro and nanoparticles Nanostrukturiertes Material (DE-588)4342626-8 gnd Hydrogel (DE-588)4160909-8 gnd Kern-Schale-Struktur (DE-588)4659381-0 gnd Mikrogel (DE-588)4169820-4 gnd |
| subject_GND | (DE-588)4342626-8 (DE-588)4160909-8 (DE-588)4659381-0 (DE-588)4169820-4 |
| title | Hydrogel micro and nanoparticles |
| title_auth | Hydrogel micro and nanoparticles |
| title_exact_search | Hydrogel micro and nanoparticles |
| title_full | Hydrogel micro and nanoparticles ed. by L. Andrew Lyon and Michael Joseph Serpe |
| title_fullStr | Hydrogel micro and nanoparticles ed. by L. Andrew Lyon and Michael Joseph Serpe |
| title_full_unstemmed | Hydrogel micro and nanoparticles ed. by L. Andrew Lyon and Michael Joseph Serpe |
| title_short | Hydrogel micro and nanoparticles |
| title_sort | hydrogel micro and nanoparticles |
| topic | Nanostrukturiertes Material (DE-588)4342626-8 gnd Hydrogel (DE-588)4160909-8 gnd Kern-Schale-Struktur (DE-588)4659381-0 gnd Mikrogel (DE-588)4169820-4 gnd |
| topic_facet | Nanostrukturiertes Material Hydrogel Kern-Schale-Struktur Mikrogel |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025976661&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT lyonlandrew hydrogelmicroandnanoparticles |