Handbook of biopolymer-based materials: from blends and composites to gels and complex networks 1
Gespeichert in:
| Weitere beteiligte Personen: | |
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| Format: | Buch |
| Sprache: | Englisch |
| Veröffentlicht: |
Weinheim
Wiley-VCH
2013
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| Links: | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026043979&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| Umfang: | XXI, 350 S. Ill., graph. Darst. |
Internformat
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| 008 | 130605s2013 gw ad|| |||| 00||| eng d | ||
| 035 | |a (OCoLC)856802381 | ||
| 035 | |a (DE-599)BVBBV041066984 | ||
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| 245 | 1 | 0 | |a Handbook of biopolymer-based materials |b from blends and composites to gels and complex networks |n 1 |c ed. by Sabu Thomas ... |
| 264 | 1 | |a Weinheim |b Wiley-VCH |c 2013 | |
| 300 | |a XXI, 350 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 700 | 1 | |a Thomas, Sabu |d 1960- |0 (DE-588)1021317551 |4 edt | |
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| 943 | 1 | |a oai:aleph.bib-bvb.de:BVB01-026043979 | |
Datensatz im Suchindex
| DE-BY-TUM_call_number | 0304 CHE 762f 2013 A 4609-1 |
|---|---|
| DE-BY-TUM_katkey | 1938748 |
| DE-BY-TUM_location | 03 |
| DE-BY-TUM_media_number | 040080299174 |
| _version_ | 1821933216785760256 |
| adam_text | CONTENTS
FOREWORD
XIII
LIST OF CONTRIBUTORS XV
VOLUME 1
1 BIOPOLYMERS: STATE OF THE
ART, NEW CHALLENGES, AND OPPORTUNITIES 1
CHRISTOPHE CHASSENIEUX, DOMINIQUE DURAND, PARAMESWARANPILLAI
JYOTISHKUMAR, AND SABU THOMAS
1.1 INTRODUCTION 1
1.2 BIOPOLYMERS: A NICHE FOR FUNDAMENTAL RESEARCH
IN SOFT MATTER PHYSICS
3
1.3 BIOPOLYMERS: AN ENDLESS SOURCE OF APPLICATIONS 4
1.4 TOPICS COVERED BY THE BOOK 5
1.5 CONCLUSIONS 5
REFERENCES 6
2 CENERAL OVERVIEW OF BIOPOLYMERS: STRUCTURE, PROPERTIES, AND
APPLICATIONS 7
CHARLES WMKWORTH-SMITH AND TIM
J. FOSTER
2.1 INTRODUCTION 7
2.2 PLANT CELL WALL POLYSACCHARIDES
11
2.2.1 CELLULOSE
11
2.2.1.1 CELLULOSE EXTRACTION
12
2.2.1.2 NANOCELLULOSE
13
2.2.1.3 MICROFIBRILLATED CELLULOSE
14
2.2.1.4 CELLULOSE NANOWHISKERS
14
2.2.2
HEMICELLULOSES
15
2.2.2.1 GALACTOMANNANS
15
2.2.2.2
KONJAC GLUCOMANNAN
19
2.2.2.3 XYLAN
19
2.2.2.4 XYLOGLUCAN
20
2.2.3 PECTINS
21
2.3 BIOCOMPOSITES
23
2.3.1 NATURAL FIBER COMPOSITES
23
HTTP://D-NB.INFO/102218119X
VI
I
CONTENTS
2.3.2 CELLULOSE COMPOSITES 25
2.3.3 CELLULOSE-POLYMER INTERACTIONS 26
2.3.4 SEMI-SOLID COMPOSITES 27
2.4 FUTURE OUTLOOK
28
REFERENCES 29
3 BIOPOLYMERS FROM PLANTS 37
MARIA
J. SABATER, TANIA RODENAS, AND ANTONIO HEREDIA
3.1 INTRODUCTION 37
3.2 LIPID AND PHENOLIC BIOPOLYMERS 38
3.2.1 THE BIOPOLYMER CUTIN
38
3.2.1.1 CUTIN MONOMERS: BIOSYNTHESIS AND PHYSICOCHEMICAL
CHARACTERISTICS 39
3.2.1.2 MOLECULAR ARCHITECTURE OF CUTIN
40
3.2.1.3 CUTIN BIOSYNTHESIS
41
3.2.2 LIGNIN
42
3.2.2.1 MONOMER PRECURSORS AND
CHEMICAL REACTIVITY
42
3.2.2.2 LIGNIN BIOSYNTHESIS
43
3.2.3 SUBERIN
45
3.2.3.1 CHEMICAL COMPOSITION 45
3.2.3.2 BIOSYNTHESIS AND FINE STRUCTURE
47
3.3 CARBOHYDRATE BIOPOLYMERS: POLYSACCHARIDES 48
3.3.1 STRUCTURAL POLYSACCHARIDES 49
3.3.1.1 CELLULOSE 49
3.3.1.2 HEMICELLULOSE 54
3.3.1.3 PECTIN 57
3.3.2 STORAGE POLYSACCHARIDES 59
3.3.2.1 STARCH 59
3.3.2.2 FRUCTANS: INULIN 63
3.3.3 OTHER: GUMS (GUAR GUM, GUM ARABIC, GUM KARAYA,
GUM
TRAGACANTH, AND LOCUST BEAN GUM) 66
3.4 ISOPRENE BIOPOLYMERS: NATURAL RUBBER 67
3.4.1 CIS-POLYISOPRENE 67
3.4.1.1 OCCURRENCE 67
3.4.1.2 COMPOSITION, STRUCTURE, AND PROPERTIES 67
3.4.1.3 CIS-L,4-POLYISOPRENE BIOSYNTHESIS
68
3.4.1.4 APPLICATIONS
73
3.4.2 TRANS-POLYISOPRENE
73
3.5 CONCLUDING REMARKS 74
REFERENCES 75
4 BACTERIAL BIOPOLYMERS AND GENETICALLY ENGINEERED BIOPOLYMERS
FOR GEL SYSTEMS APPLICATION 87
DEEPTI SINGH AND ASHOK KUMAR
4.1 INTRODUCTION 87
4.1.1 NUCLEIC ACID BIOPOLYMERS: CENTRAL DOGMA
89
CONTENTS VII
4.2 MICROBIAL POLYSACCHARIDES AS BIOPOLYMERS 90
4.2.1 SYNTHESIS AND APPLICATIONS 90
4.3 MICROBIAL BIOPOLYMERS AS DRUG DELIVERY VEHICLE 92
4.3.1
E-POLY-L-LYSINE
(S-PL)
AND ITS APPLICATIONS 92
4.3.2 POLYHYDROXYALKANOATES AND ITS APPLICATIONS 92
4.4 POLYANHYDRIDES 93
4.5 RECOMBINANT PROTEIN POLYMER PRODUCTION 94
4.6 RECOMBINANT GENETICALLY ENGINEERED BIOPOLYMER: ELASTIN 95
4.7 COLLAGEN AS AN IDEAL BIOPOLYMER 97
4.7.1 MICROBIAL RECOMBINANT COLLAGENS: PRODUCTION
IN
PICHIA PASTORIS 97
4.8 BIOPOLYMERS FOR GEL SYSTEM 99
4.9 HYDROGELS OF BIOPOLYMERS FOR REGENERATIVE MEDICINE 99
4.9.1 POLYSACCHARIDE HYDROGELS 99
4.9.2 CELLULOSE-DERIVED BIOPOLYMERS-BASED HYDROGELS
100
4.9.3 PROTEIN-BIOPOLYMERS-BASED HYDROGELS
100
4.10 SUPERMACROPOROUS CRYOGEL MATRIX FROM BIOPOLYMERS .
100
4.10.1 PROTEIN CRYOGEL
101
4.11 BIOPOLYMERS IMPACT ON ENVIRONMENT
102
4.12 CONCLUSION
103
REFERENCES
104
5 BIOPOLYMERS FROM ANIMALS
109
KHALEELULLA SAHEB SHAIK AND BERNARD MOUSSIAN
5.1 INTRODUCTION
109
5.2 CHITIN AND
HYALURONIC ACID IN THE LIVING WORLD
110
5.3 MILESTONES IN CHITIN HISTORY
110
5.4 FROM TREHALOSE TO CHITIN
112
5.5 CHITIN SYNTHASE
115
5.6 REGULATION OF CHITIN SYNTHESIS IN FUNGI
117
5.7 ORGANIZATION OF CHITIN IN THE FUNGAL CELL WALL
118
5.8 ORGANIZATION OF CHITIN IN THE ARTHROPOD
CUTICLE
119
5.9 CHITIN-ORGANIZING FACTORS
123
5.10 SECRETION AND CUTICLE FORMATION
126
5.11 TRANSCRIPTIONAL REGULATION OF CUTICLE PRODUCTION
128 .
5.12 CHITIN SYNTHESIS INHIBITORS
130
5.13 NONCUTICULAR CHITIN
IN INSECTS
131
5.14 CHITIN AS A STRUCTURAL ELEMENT
133
5.15 APPLICATION OF CHITIN
134
5.16 CONCLUSION
135
REFERENCES
135
6 POLYMERIC BLENDS WITH BIOPOLYMERS
143
HERO
JAN HEERES, FRANK VAN MAASTRIGT, AND FRANCESCO PICCHIONI
6.1 INTRODUCTION
143
6.2 STARCH-BASED BLENDS
146
VIIII
CONTENTS
6.2.1 POLYMER SELECTION FOR STARCH BLENDING
147
6.2.2 STARCH STRUCTURE 150
6.2.3 UNCOMPATIBILIZED BLENDS
152
6.2.4 COMPATIBILIZATION 155
6.2.5 COMPOSITES
157
6.3 BLENDS WITH CHITOSAN (ONE AMINO
GROUP TOO MUCH . . . )
158
6.4 FUTURE PERSPECTIVES
161
6.4.1 BIOPOLYMER PLASTICIZATION
161
6.4.2 BLEND MORPHOLOGY AND
COMPATIBILIZATION
162
6.4.3 BLEND PROCESSING: TECHNOLOGICAL ASPECTS 163
REFERENCES
164
7 MACRO-, MICRO-, AND NANOCOMPOSITES BASED ON BIODEGRADABLE
POLYMERS
173
LUC AVEROUS AND ERIC POLLET
7.1 INTRODUCTION 173
7.2 BIODEGRADABLE POLYMERS 174
7.2.1 CLASSIFICATION
174
7.2.2 AGRO-POLYMERS: THE CASE OF STARCH 175
7.2.2.1 NATIVE STARCH STRUCTURE 175
7.2.2.2 PLASTICIZED STARCH 176
7.2.3 BIODEGRADABLE POLYESTERS
177
7.2.3.1 POLYESTERS BASED ON AGRO-RESOURCES 177
7.2.3.2 PETROLEUM-BASED POLYESTERS 179
7.3 BIOCOMPOSITES 181
7.3.1 GENERALITIES
181
7.3.2 THE CASE OF BIOCOMPOSITES BASED ON AGRO-POLYMERS
181
7.3.2.1 CELLULOSE FIBER REINFORCEMENT 181
7.3.2.2 IIGNIN
AND MINERAL FILLERS 182
7.3.3 THE CASE OF BIOCOMPOSITES BASED ON BIOPOLYESTERS 182
7.3.3.1 GENERALITIES 182
7.3.3.2 THE CASE OF BIOCOMPOSITES BASED ON AROMATIC COPOLYESTERS
183
7.4 NANOBIOCOMPOSITES. 186
7.4.1 GENERALITIES
186
7.4.2 NANOBIOCOMPOSITES BASED ON AGRO-POLYMERS (STARCH) 187
7.4.2.1 WHISKER-BASED NANOBIOCOMPOSITES 190
7.4.2.2 STARCH NANOCRYSTAL-BASED NANOBIOCOMPOSITES
190
7.4.2.3 NANOCLAY-BASED NANOBIOCOMPOSITES 190
7.4.3 NANOBIOCOMPOSITES BASED ON BIOPOLYESTERS
193
7.4.3.1 POLY(LACTIC ACID)-BASED NANOBIOCOMPOSITES
193
7.4.3.2 POLYHYDROXYALKANOATE-BASED NANOBIOCOMPOSITES
194
7.4.3.3 POLYCAPROLACTONE-BASED NANOBIOCOMPOSITES 195
7.4.3.4 BIODEGRADABLE ALIPHATIC COPOLYESTER-BASED NANOBIOCOMPOSITES 197
7.4.3.5 AROMATIC COPOLYESTER-BASED NANOBIOCOMPOSITES 199
REFERENCES
200
CONTENTS IX
8 IPNS DERIVED FROM BIOPOLYMERS
211
FERNANDO C. TORRES, OMAR PAUL TRONCOSO, AND CARLOS TORRES
8.1 INTRODUCTION
211
8.2 TYPES OF IPNS 232
8.3 IPNS DERIVED FROM BIOPOLYMERS
214
8.3.1 ALGINATE
215
8.3.2 AGAROSE
215
8.3.3 CHITOSAN
215
8.3.4 STARCH 216
8.3.5 DEXTRAN
217
8.3.6 GUM
ARABIC
217
8.3.7 FIBRINOGEN
217
8.3.8 COLLAGEN AND GELATIN
217
8.3.9 CELLULOSE AND CELLULOSE DERIVATIVES
218
8.3.10 POLYHYDROXYALKANOATES
218
8.3.11 LACTIDE-DERIVED POLYMERS
219
8.4 MANUFACTURE OF IPNS
220
8.4.1 CASTING-EVAPORATION PROCESSING
220
8.4.2 EMULSIFICATION CROSS-LINKING
TECHNIQUE
220
8.4.3 MINIEMULSION/INVERSE MINIEMULSION
TECHNIQUE
221
8.4.4 FREEZE DRYING TECHNIQUE 222
8.5 CHARACTERIZATION OF IPNS 222
8.5.1 MORPHOLOGICAL AND
STRUCTURAL CHARACTERIZATION 222
8.5.2 FTIR SPECTROSCOPY 223
8.5.3 MECHANICAL CHARACTERIZATION
224
8.5.4 RHEOLOGICAL CHARACTERIZATION 225
8.5.5 SWELLING BEHAVIOR CHARACTERIZATION 225
8.5.6 THERMAL CHARACTERIZATION 226
8.6 APPLICATIONS OF IPNS 226
8.6.1 DRUG DELIVERY APPLICATIONS 226
8.6.2 SCAFFOLDS FOR TISSUE ENGINEERING 227
8.6.3 OTHER BIOMEDICAL APPLICATIONS 227
8.6.4 ANTIBACTERIAL APPLICATIONS 228
8.6.5 SENSOR, ACTUATORS, AND ARTIFICIAL MUSCLE APPLICATIONS
228
8.7 CONCLUSIONS 229
REFERENCES 229
9 ASSOCIATING BIOPOLYMER SYSTEMS AND HYALURONATE BIOMATERIALS
235
DEBORAH BLANCHARD AND RACHEL AUZELY-VELTY
9.1 INTRODUCTION
235
9.2 SYNTHESIS AND SELF-ASSOCIATION OF HYDROPHOBICALLY MODIFIED
DERIVATIVES
OF CHITOSAN AND HYALURONIC ACID IN AQUEOUS SOLUTION
237
9.2.1 GENERAL ASPECTS OF ASSOCIATION IN AMPHIPHILIC POLYELECTROLYTES 237
9.2.2 SYNTHESIS AND BEHAVIOR IN AQUEOUS SOLUTION OF HYDROPHOBICALLY
MODIFIED WATER-SOLUBLE DERIVATIVES OF CHITOSAN 239
X CONTENTS
. 9.2.3 SYNTHESIS AND BEHAVIOR IN AQUEOUS SOLUTION OF HYDROPHOBICALLY
MODIFIED WATER-SOLUBLE DERIVATIVES OF HYALURONIC ACID 242
9.3 DESIGN OF NOVEL BIOMATERIALS BASED ON CHEMICALLY MODIFIED
DERIVATIVES OF HYALURONIC ACID
248
9.3.1 NANOASSEMBLIES BASED ON AMPHIPHILIC HYALURONIC ACID 249
9.3.2 HYDROGELS FOR CELL BIOLOGY AND TISSUE ENGINEERING
254
9.3.2.1 STRATEGIES FOR THE CROSS-LINKING OF HA TO OBTAIN SCAFFOLDS FOR
CELLS
254
9.3.2.2 ENGINEERING BIOLOGICAL FUNCTIONALITY IN HYALURONIC ACID-BASED
SCAFFOLDS
260
9.3.2.3 PATTERNING OF HYALURONIC ACID
261
9.4 CONCLUSIONS
271
REFERENCES
271
10 POLYMER GELS FROM BIOPOLYMERS 279
ESRA ALVEROGLU, ALI CELIR, AND
YASAR YILMAZ
10.1 INTRODUCTION 279
10.2 EXPERIMENTAL METHODS 279
10.3 POLYMERIZATION AND
GELATION KINETICS
281
10.3.1 FLUOROPROBE-POLYMER INTERACTIONS
283
10.3.2 REAL-TIME MONITORING OF MONOMER CONVERSION
286
10.4 SOL-GEL TRANSITION AND UNIVERSALITY DISCUSSION
287
10.5 IMPRINTING THE
GELS 292
10.6 HETEROGENEITY OF HYDROGELS
301
10.6.1 EFFECT OF ION DOPING ON SWELLING PROPERTIES AND NETWORK
STRUCTURE OF HYDROGELS
301
10.6.2 CURRENT MEASUREMENTS FOR SEARCHING THE
INTERNAL MORPHOLOGY
OF THE GELS
302
10.7 IONIC P-TYPE AND N-TYPE SEMICONDUCTING GELS
303
10.7.1 ELECTRICAL PROPERTIES OF IONIC P-TYPE AND N-TYPE SEMICONDUCTING
GELS
304
10.7.2 POLYMERIC GEL DIODES WITH IONIC CHARGE CARRIERS
305
10.8 CONCLUSIONS
307
REFERENCES
308
11 CONFORMATION AND RHEOLOGY OF MICROBIAL EXOPOLYSACCHARIDES
317
JACQUES DESBRIERES
11.1 INTRODUCTION
317
11.2 CONFORMATION OF POLYSACCHARIDES
318
11.3 SECONDARY SOLID-STATE STRUCTURES FOR MICROBIAL POLYSACCHARIDES
318
11.3.1 NO SECONDARY SOLID-STATE STRUCTURE 319
11.3.2 SINGLE-CHAIN CONFORMATION
319
11.3.3 SIMPLE OR/AND DOUBLE HELICES
321
11.3.4 DOUBLE HELIX
323
11.3.5 TRIPLE HELIX 323
CONTENTS XI
11.4 CONFORMATION IN SOLUTION: SOLUTION PROPERTIES AND
APPLICATIONS 325
11.4.1 DEXTRAN AND PULLULAN 325
11.4.2 HYALURONAN
326
11.4.3 XANTHAN
331
11.4.4 SUCCINOGLYCAN
334
11.5 GELLING PROPERTIES IN THE
PRESENCE OF SALTS
336
11.5.1 [3 (1
* 4)-D-GLUCURONAN
336
11.5.2 POLYSACCHARIDE 1644
337
11.5.3 GELLAN AND SIMILAR POLYSACCHARIDES
337
11.5.4
P(L* 3)-D-GLUCANS
341
11.5.5 YAS34
342
11.6 CONCLUSIONS
345
REFERENCES
345
12 SULFATED POLYSACCHARIDES IN THE
CELL WALL OF RED MICROALGAE
351
SHOSHANA (MALIS) ARAD AND
OSHRAT LEVY-ONTMAN
12.1 INTRODUCTION
351
12.2 SULFATED POLYSACCHARIDES FROM RED MICROALGAE - GENERAL OVERVIEW
352
12.3 SULFATED POLYSACCHARIDES OF RED MICROALGAL CELL WALLS: CHEMICAL
ASPECTS
354
12.4 PROTEINS IN THE CELL WALL OF RED MICROALGAE 355
12.5 RHEOLOGY OF RED MICROALGAL POLYSACCHARIDE SOLUTIONS 356
12.6 MODIFICATIONS OF THE SULFATED POLYSACCHARIDES 359
12.7 RED MICROALGAL SULFATED POLYSACCHARIDE BIOACTIVITIES 362
REFERENCES 365
VOLUME 2
13 DIELECTRIC SPECTROSCOPY AND THERMALLY STIMULATED CURRENT ANALYSIS
OF BIOPOLYMER SYSTEMS
371
VALERIE SAMOUILLAN.JANY DANDURAND, AND
COLETTE LACABANNE
14 SOLID-STATE N M R SPECTROSCOPY OF BIOPOLYMERS
403
CARRICK F. TAYLOR, PHEDRA MARIUS, CHRIS FORD, AND PHILIP T. F.
WILLIAMSON
15 EPR SPECTROSCOPY OF BIOPOLYMERS
443
JANEZ
STRANCAR AND
VANJA KOKOL
16 X-RAY PHOTOELECTRON SPECTROSCOPY: A TOOL FOR STUDYING
BIOPOLYMERS 473
ANA MARIA BOTELHO DO REGO, ANA MARIA FERRARIA, MANUEL REI WAR,
AND SAMI BOUFI
17
LIGHT-SCATTERING STUDIES OF BIOPOLYMER SYSTEMS 533
TACO NICOLAI AND DOMINIQUE DURAND
X-RAY SCATTERING AND DIFFRACTION OF BIOPOLYMERS 567
YOSHIHARU NISHIYAMA AND MARLI MIRIAM DE SOUZA LIMA
LARGE-SCALE STRUCTURAL CHARACTERIZATION OF BIOPOLYMER SYSTEMS
BY SMALL-ANGLE NEUTRON SCATTERING
583
FERENC HORKAY
MICROSCOPY OF BIOPOLYMER SYSTEMS
611
CHANGMIN HU AND
WENGUO CUI
RHEO-OPTICAL CHARACTERIZATION OF BIOPOLYMER SYSTEMS 645
DAGANG LIU, RAKESH KUMAR, DONGLIN TIAN, FEI LU, AND MINDONG
CHEN
RHEOLOGICAL BEHAVIOR OF BIOPOLYMER SYSTEMS 673
TAO FENG AND RAN YE
PHYSICAL GELS OF BIOPOLYMERS: STRUCTURE, RHEOLOGICAL
AND GELATION PROPERTIES 699
CAMILLE MICHON
INTERFACIAL PROPERTIES OF BIOPOLYMERS, EMULSIONS, AND EMULSIFIERS
717
ADAMANTINI PARASKEVOPOULOU AND
VASSILIS KIOSSEOGLOU
MODELING AND SIMULATION OF BIOPOLYMER SYSTEMS
741
DENIS BOUYER
AGING AND BIODEGRADATION OF BIOCOMPOSITES 777
SIJI K. MARY, PRASANTH KUMAR
SASIDHARAN PILLAI, DEEPA BHANUMATHY AMMA,
LALY A. POTHEN, AND SABU THOMAS
BIOPOLYMERS FOR HEALTH, FOOD, AND COSMETIC APPLICATIONS
801
ROBIN AUGUSTINE, RAJAKUMARI RAJENDRAN, UROS CVELBAR, MIRAN MOZETIT,
AND ANNE
GEORGE
INDEX
851
|
| any_adam_object | 1 |
| author2 | Thomas, Sabu 1960- |
| author2_role | edt |
| author2_variant | s t st |
| author_GND | (DE-588)1021317551 |
| author_facet | Thomas, Sabu 1960- |
| building | Verbundindex |
| bvnumber | BV041066984 |
| classification_rvk | UV 9500 VE 9670 |
| ctrlnum | (OCoLC)856802381 (DE-599)BVBBV041066984 |
| discipline | Chemie / Pharmazie Physik |
| format | Book |
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| id | DE-604.BV041066984 |
| illustrated | Illustrated |
| indexdate | 2024-12-20T16:30:03Z |
| institution | BVB |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-026043979 |
| oclc_num | 856802381 |
| open_access_boolean | |
| owner | DE-703 DE-29T DE-11 DE-91G DE-BY-TUM DE-355 DE-BY-UBR DE-634 DE-19 DE-BY-UBM DE-1102 |
| owner_facet | DE-703 DE-29T DE-11 DE-91G DE-BY-TUM DE-355 DE-BY-UBR DE-634 DE-19 DE-BY-UBM DE-1102 |
| physical | XXI, 350 S. Ill., graph. Darst. |
| publishDate | 2013 |
| publishDateSearch | 2013 |
| publishDateSort | 2013 |
| publisher | Wiley-VCH |
| record_format | marc |
| spellingShingle | Handbook of biopolymer-based materials from blends and composites to gels and complex networks |
| title | Handbook of biopolymer-based materials from blends and composites to gels and complex networks |
| title_auth | Handbook of biopolymer-based materials from blends and composites to gels and complex networks |
| title_exact_search | Handbook of biopolymer-based materials from blends and composites to gels and complex networks |
| title_full | Handbook of biopolymer-based materials from blends and composites to gels and complex networks 1 ed. by Sabu Thomas ... |
| title_fullStr | Handbook of biopolymer-based materials from blends and composites to gels and complex networks 1 ed. by Sabu Thomas ... |
| title_full_unstemmed | Handbook of biopolymer-based materials from blends and composites to gels and complex networks 1 ed. by Sabu Thomas ... |
| title_short | Handbook of biopolymer-based materials |
| title_sort | handbook of biopolymer based materials from blends and composites to gels and complex networks |
| title_sub | from blends and composites to gels and complex networks |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026043979&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV041066981 |
| work_keys_str_mv | AT thomassabu handbookofbiopolymerbasedmaterialsfromblendsandcompositestogelsandcomplexnetworks1 |
Inhaltsverzeichnis
Paper/Kapitel scannen lassen
Paper/Kapitel scannen lassen
Teilbibliothek Chemie
| Signatur: |
0304 CHE 762f 2013 A 4609-1
Lageplan |
|---|---|
| Exemplar 1 | Nicht ausleihbar Am Standort |