Verfügbarkeit: Bio- and bioinspired nanomaterials

Bio- and bioinspired nanomaterials:

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Bibliographische Detailangaben
Weitere Verfasser:	Ruiz-Molina, Daniel (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinhein Wiley-VCH 2015
Schlagworte:	Intelligenter Werkstoff Nanotechnologie Bionik Funktionswerkstoff Biomaterial Nanostrukturiertes Material Biowissenschaften
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXVI, 457 S. Ill., graph. Darst.
ISBN:	9783527335817 9783527675821

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Datensatz im Suchindex

_version_	1804152674205040640
adam_text	CONTENTS LIST OF CONTRIBUTORS XIII FOREWORD XXIII PREFACE XXV PART 1 BIONANOMATERIALS 1 1 SYNTHESIS OF COLLOIDAL GOLD AND SILVER NANOPARTIDES AND THEIR PROPERTIES 3 CHRISTIAN PFEIFFER, WOLFGANG J. PARAK, AND JOSE MARIA MONTENEGRO 1.1 INTRODUCTION 3 1.2 PHYSICAL AND CHEMICAL PROPERTIES OF GOLD AND SILVER NANOPARTIDES 6 1.2.1 OPTICAL PROPERTIES OF GOLD AND SILVER NANOPARTIDES 7 1.2.2 ELECTRONIC PROPERTIES OF GOLD AND SILVER NANOPARTIDES 8 1.3 SYNTHESIS OF GOLD AND SILVER CORE NANOPARTIDES 9 1.4 TRANSFER TO AQUEOUS MEDIA OF GOLD AND SILVER NANOPARTIDES FROM ORGANIC SOLVENTS 11 1.5 SOME APPLICATIONS OF GOLD AND SILVER NANOPARTIDES 13 ACKNOWLEDGMENTS 16 REFERENCES 16 2 CERAMIC SMART DRUG DELIVERY NANOMATERIALS 23 ALEJANDRO BAEZA AND MARIA VALLET-REGI 2.1 INTRODUCTION 23 2.2 BIODISTRIBUTION, TOXICITY, AND EXCRETION OF NANOPARTIDES 24 2.3 MESOPOROUS SILICA NANOPARTIDES 27 2.4 CALCIUM PHOSPHATE NANOPARTIDES 32 2.5 CARBON ALLOTROPES 33 2.6 IRON OXIDE NANOPARTIDES 37 REFERENCES 39 HTTP://D-NB.INFO/1050181255 VI \| CONTENTS 3 POLYMERSOMES AND THEIR BIOLOGICAL IMPLICATIONS 49 REGINA BLEUL AND MICHAEL MASKOS 3.1 INTRODUCTION 49 3.2 SELF-ASSEMBLY OF AMPHIPHILES SO 3.3 POLYMERSOME - THE SYNTHETIC ANALOG OF A LIPOSOME 52 3.3.1 POLYMERSOME PREPARATION METHODS 52 3.3.1.1 BATCH METHODS 52 3.3.1.2 CONTINUOUS FLOW METHODS 54 3.3.2 CHARACTERIZATION OF POLYMERSOMES 56 3.4 POLYMERSOMES AS DRUG DELIVERY DEVICES 57 3.4.1 TUNING MEMBRANE PROPERTIES AND CONTROLLING THE RELEASE 58 3.4.1.1 PH-RESPONSIVE POLYMERSOMES 59 3.4.1.2 HYDROLYSIS OF POLYMERSOMES BUILT FROM BIODEGRADABLE POLYMERS 60 3.4.1.3 GSH-RESPONSIVE (REDOX) VESICLES 64 3.4.1.4 TEMPERATURE-RESPONSIVE POLYMERS 65 3.4.1.5 MAGNETIC RELEASE 68 3.4.2 SURFACE FUNCTIONALIZATION AND TARGETING STRATEGIES 68 3.5 EMBEDDING CHANNEL PROTEINS IN ARTIFICIAL POLYMER MEMBRANES AND CREATING NEW APPLICATIONS 71 3.6 CONCLUSIONS AND OUTLOOK 74 LIST OF ABBREVIATIONS 74 REFERENCES 76 4 MOFS IN PHARMACEUTICAL TECHNOLOGY 83 C. TAMAMES-TABAR, A GARCIA-MARQUEZ, M. J. BLANCO-PRIETO, C. SERRE, AND P. HORCAJADA 4.1 INTRODUCTION 83 4.2 METAL-ORGANIC FRAMEWORKS 84 4.2.1 DESCRIPTION 84 4.2.2 SYNTHESIS, FORMULATION, AND FUNCTIONALIZATION/SHAPING 85 4.2.2.1 SYNTHESIS AND FORMULATION/SHAPING 85 4.2.2.2 FUNCTIONALIZATION 86 4.2.3 STABILITY AND TOXICITY 87 4.3 MOFS FOR THERAPEUTICS 90 4.3.1 BIOMOFS 90 4.3.2 ACTIVE INGREDIENT ADSORPTION AND RELEASE FROM MOFS 92 4.3.2.1 DRUGS 93 4.3.2.2 COSMETICS 96 4.3.3 UNDERSTANDING 97 4.3.3.1 ENCAPSULATION 97 4.3.3.2 RELEASE 98 4.3.4 THERANOSTICS 99 CONTENTS IVII 4.3.5 EFFICACY 100 4.4 CONCLUSIONS 100 LIST OF ABBREVIATIONS 101 REFERENCES 103 5 AMORPHOUS COORDINATION POLYMER PARTICLES FOR BIOMEDICINE 113 FERNANDO NOVIO, DANIEL RUIZ-MOLINA, AND JULIA LORENZO 5.1 INTRODUCTION 113 5.2 INTERACTION OF NANOPLATFORMS WITH THE BIOLOGICAL ENVIRONMENT 114 5.3 CPPS AS REALISTIC ALTERNATIVE TO CLASSICAL NANOSYSTEMS 117 5.3.1 ENCAPSULATION SYSTEMS BASED ON CPPS 119 5.3.2 ACTIVE METAL-ORGANIC UNITS 122 5.3.2.1 ACTIVE METAL IONS 123 5.3.2.2 DRUGS AS BRIDGING LIGANDS 123. 5.3.2.3 ACTIVE COMPLEXES 124 5.3.3 SMART DELIVERY SYSTEMS 126 5.3.4 BIOIMAGING 128 5.3.5 BIOCOMPATIBILITY OF CPPS 130 5.4 CONCLUSION AND FUTURE CHALLENGES 132 REFERENCES 133 6 MAGNETIC NANOPARTIDES FOR MAGNETIC HYPERTHERMIA AND CONTROLLED DRUG DELIVERY 139 PABLO GUARDIA, ANDREAS RIEDINGER, HAMILTON KAKWERE, FLORENCE GAZEAU, AND TERESA PELLEGRINO 6.1 INTRODUCTION 139 6.2 PRINCIPLES OF MAGNETICALLY INDUCED HEAT GENERATION 141 6.3 SYNTHESIS OF MNPS AND THEIR HEAT PERFORMANCE 146 6.3.1 COPRECIPITATION METHOD 147 6.3.2 THERMAL DECOMPOSITION METHOD ISO 6.4 LOCAL HEATING AND INDUCED BIOLOGICAL AND DRUG RELEASE EFFECTS 159 6.5 IN VIVO DRUG RELEASE FROM MAGNETIC HYBRID SYSTEMS UNDER ALTERNATING MAGNETIC FIELD EXPOSURE 163 * REFERENCES 166 7 PHOTOTHERMAL EFFECT OF GOLD NANOSTRUCTURES FOR APPLICATION IN BIOIMAGING AND THERAPY 173 LOREDANA LATTERINI AND LUIGI TARPANI 7.1 INTRODUCTION 173 7.2 PHOTOPHYSICAL CHARACTERIZATION OF GOLD NANOSTRUCTURES 174 7.2.1 PHOTOPHYSICAL BEHAVIOR OF GOLD NANOSTRUCTURES 174 7.2.2 PLASMONIC PHOTOTHERMAL EFFECT 176 7.3 TUNING THE ABSORPTION SPECTRUM OF GOLD NANOSTRUCTURES 177 7.3.1 NANOPARTIDES 177 7.3.2 NANOSHELLS 178 7.3.3 NANORODS 181 VIII \| CONTENTS 7.3.4 OTHER TYPES OF NANOSTRUCTURES 184 7.4 PLASMONIC PHOTOTHERMAL EFFECT OF GNS IN IMAGING 185 7.4.1 PHOTOACOUSTIC IMAGING 185 7A.2 PHOTOTHERMAL IMAGING 187 7.4.3 PHOTOTHERMAL TREATMENTS OR MANIPULATION 188 7.4.3.1 HYPERTHERMIA 188 7.4.3.2 PHOTOTHERMAL ABLATION 189 7.5 CONCLUDING REMARKS 192 ACKNOWLEDGMENT 193 LIST OF ABBREVIATIONS 193 REFERENCES 193 8 NANOMATERIAL-BASED BIOIMAGING PROBES 201 CHRISTIAN BUCHWALDER, KATAYOUN SAATCHI, AND URS O. HAFELI 8.1 INTRODUCTION 201 8.2 NANOPROBES 204 8.3 IMAGING PROBES 207 8.4 TARGETING STRATEGIES 211 8.4.1 PASSIVE TARGETING 212 8.4.2 ACTIVE TARGETING 214 8.4.3 LIMITATIONS 216 8.5 NANOTHERANOSTICS 217 8.6 DESIGN CONSIDERATIONS 219 8.7 SUMMARY AND FUTURE TRENDS 223 REFERENCES 223 9 MOLECULAR BASES OF NANOTOXICOLOGY 229 ANGELA TINO, ALFREDO AMBROSONE, VALENTINO MARCHESANO, AND CLAUDIA TORTIGLIONE 9.1 INTRODUCTION 229 9.2 IMPACT ON ENVIRONMENT: NANOECOTOXICOLOGY 229 9.3 IMPACT ON HEALTH: NANOTOXICOLOGY 232 9.3.1 THE BASIS OF NANOGENOTOXICITY: NPS AFFECT DNA INTEGRITY AND STABILITY 235 9.3.2 HALLMARKS OF GENE EXPRESSION IN RESPONSE TO NPS 236 9.3.3 NEW FRONTIERS IN NANOTOXICOLOGY: NANOMATERIALS DRIVE EPIGENETIC CHANGES 244 REFERENCES 248 PART II BIOINSPIRED MATERIALS - BIOINSPIRED MATERIALS FOR TECHNOLOGICAL APPLICATION 255 10 BIOINSPIRED INTERFACES FOR SELF-CLEANING TECHNOLOGIES 257 VICTORIA DUTSCHK 10.1 THE CONCEPT OF BIOINSPIRATION IN MATERIALS ENGINEERING 257 CONTENTS \| IX 10.1.1 TERMS 257 10.1.2 BIOINSPIRATION AND NANOTECHNOLOGY 259 10.2 BASICS OF WETTING 260 10.2.1 CONTACT ANGLE AND CONTACT ANGLE HYSTERESIS 260 10.2.2 CONTACT ANGLE ON ROUGH SURFACES 261 10.3 SELF-CLEANING TECHNOLOGIES 264 10.3.1 FLUID TRANSPORT 265 10.3.2 BIOFOULING 267 10.3.3 WATER, OIL, AND STAIN REPELLENCY 268 10.4 SUMMARY 273 REFERENCES 273 11 CATECHOL-BASED BIOMIMETIC FUNCTIONAL MATERIALS AND THEIR APPLICATIONS 277 FELIX BUSQUE, JOSEP SEDO, DANIEL RUIZ-MOLINA, AND JAVIER SAIZ-POSEU 11.1 INTRODUCTION 277 11.2 ADHESIVES 278 11.2.1 GENERAL PURPOSE ADHESIVES 278 11.2.2 ADHESIVE HYDROGELS FOR BIOMEDICAL APPLICATIONS 280 11.3 FUNCTIONALIZABLE PLATFORMS (PRIMERS) ON MACROSCOPIC SURFACES 282 11.3.1 POLYDOPAMINE 283 11.3.1.1 BIO- AND BIOMEDICAL APPLICATIONS 283 11.3.1.2 HYDROPHOBIC/HYDROPHILIC COATINGS 284 11.3.2 OTHER CATECHOL-CONTAINING POLYMERS 285 11.3.2.1 ANTIFOULING COATINGS 286 11.3.2.2 ANTIBACTERIAL COATINGS 286 11.3.2.3 ANTI-CORROSION 287 11.3.2.4 HYDROPHOBIC/HYDROPHILIC COATINGS 287 11.4 MICRO-/NANOSCOPIC SURFACE FUNCTIONALIZATION 288 11.4.1 CATECHOL-MODIFIED FERRIC NPS 288 11.4.1.1 THERAPEUTIC USES AND IMAGING 288 11.4.1.2 BIOSENSORS 289 11.4.2 FUNCTIONALIZATION OF NANO- AND MICROSTRUCTURES OTHER THAN FE 3 0 4 NPS 290 11.5 FUNCTIONAL SCAFFOLDS 290 11.5.1 ORIENTAL LACQUERS 290 11.5.2 MELANIN 291 11.5.3 POLYDOPAMINE-BASED NANOPARTICLES 293 11.6 CHELATING MATERIALS/SIDEROPHORE-LIKE MATERIALS 293 11.6.1 THERAPEUTIC USES AND IMAGING 294 11.6.2 HEAVY METAL SCAVENGING 295 11.7 MATERIALS FOR CHEMO-/BIOSENSING 296 11.8 ELECTRONIC DEVICES 297 X\| CONTENTS 11.8.1 MOLECULAR ELECTRONICS 297 11.8.2 DYE-SENSITIZED SOLAR CELLS 298 11.8.3 MISCELLANEOUS DEVICES 301 REFERENCES 301 12 CURRENT APPROACHES TO DESIGNING NANOMATERIALS INSPIRED BY MUSSEL ADHESIVE PROTEINS 309 HAO MENG, JOSEPH GAZELLA, AND BRUCE P. LEE 12.1 INTRODUCTION 309 12.2 MUSSEL ADHESIVE PROTEINS AND DOPA 310 12.2.1 CATECHOL SIDE CHAIN CHEMISTRY 310 12.2.1.1 REVERSIBLE PHYSICAL INTERACTIONS 310 12.2.1.2 OXIDATION-MEDIATED CROSSLINKING 312 12.3 NANOPARTICLE STABILIZATION 313 12.3.1 GRAFTING CATECHOL-POLYMER CONJUGATE 314 12.3.2 SURFACE-INITIATED POLYMERIZATION 315 12.3.3 CHEMICAL MODIFICATION OF CATECHOL SIDE CHAIN 316 12.4 NANOCOMPOSITE MATERIALS 317 12.4.1 NANOCOMPOSITE HYDROGEL 317 12.4.2 LBL NANOCOMPOSITE FILMS 318 12.4.3 NANOCOMPOSITE FIBER 319 12.4.4 NANOCOMPOSITE RUBBER 320 12.5 GECKO AND MUSSEL DUAL MIMETIC ADHESIVE 321 12.6 POLYDOPAMINE AS A MULTIFUNCTIONAL ANCHOR 322 12.6.1 POLYDOPAMINE-MEDIATED HIERARCHICAL SURFACE MODIFICATION 322 12.6.2 POLYDOPAMINE-COATED NANOPARTICLES FOR THERAPEUTIC APPLICATIONS 323 12.7 SUMMARY AND FUTURE OUTLOOK 323 ACKNOWLEDGMENT 325 REFERENCES 325 PART III BIOINSPIRE D MATERIALS - BIOINSPIRED MATERIALS FOR BIOMEDICAL APPLICATIONS 335 13 FUNCTIONAL GRADIENTS IN BIOLOGICAL COMPOSITES 337 ANDRI R. STUD ART, RAFAEL LIBANORI, AND RANDALL M. ERB 13.1 INTRODUCTION 337 13.2 CHEMICAL GRADIENT 340 13.3 HYDRATION GRADIENT 346 13.4 MINERAL GRADIENT 349 13.5 TEXTURE GRADIENT 353 13.6 POROSITY GRADIENT 359 13.7 CONCLUSIONS 363 REFERENCES 364 CONTENTS \| XI 14 NOVEL BIOINSPIRED PHOSPHOLIPID POLYMER BIOMATERIALS FOR NANOBIOENGINEERING 369 KAZUHIKO ISHIHARA 14.1 INTRODUCTION 369 14.2 MOLECULAR DESIGN OF AN ARTIFICIAL CELL MEMBRANE SURFACE 370 14.3 POLYMER NANOPARTICLES SYSTEM WITH AN ARTIFICIAL CELL MEMBRANE STRUCTURE 372 14.3.1 PREPARATION OF POLYMER NANOPARTICLES WITH AN ARTIFICIAL CELL MEMBRANE STRUCTURE 372 14.3.2 FUNCTIONALITY OF BIOMOLECULES IMMOBILIZED ON AN ARTIFICIAL CELL MEMBRANE SURFACE 373 14.3.3 MULTIPLE FUNCTIONS OF THE ARTIFICIAL CELL MEMBRANE STRUCTURE 376 14.4 NANOMATERIALS ENTRAPPED IN THE POLYMERIC NANOPARTICLES WITH AN ARTIFICIAL CELL MEMBRANE 379 14.4.1 SURFACE MODIFICATION OF QUANTUM DOTS (QDS) WITH PHOSPHOLIPID POLYMERS 379 14.4.2 ENCAPSULATION OF QDS IN THE POLYMERIC NANOPARTICLES COVERED WITH ARTIFICIAL CELL MEMBRANE 381 14.4.3 IN-CELL PERFORMANCE OF POLYMERIC NANOPARTICLES COVERED WITH ARTIFICIAL CELL MEMBRANE 382 14.5 FUTURE PERSPECTIVES 386 LIST OF ABBREVIATIONS 386 REFERENCES 387 15 BIOINSPIRED FUNCTIONALIZED NANOPARTICLES AS TOOLS FOR DETECTION, QUANTIFICATION AND TARGETING OF BIOMOLECULES 391 CARLOS LODEIRO, ELISABETE OLIVEIRA, CRISTINA NUNEZ, HUGO M. SANTOS, JAVIER FERNDNDEZ-LODEIRO, AND JOSE LUIS CAPELO 15.1 INTRODUCTION 391 15.2 BIOINSPIRED FUNCTIONALIZED NANOPARTICLES 394 15.2.1 BIOINSPIRED PROBES AND NANOPARTICLE FUNCTIONALIZATION 394 15.3 BIOMEDICAL APPLICATIONS 396 15.3.1 IN VITRO DIAGNOSTICS USING NANOPARTICLES 396 15.3.1.1 DETECTION OF BIOMOLECULES 396 15.3.1.2 DETECTION OF TUMOR CELLS: BIOIMAGING 397 15.3.1.3 SEPARATION AND PURIFICATION OF BIOLOGICAL MOLECULES AND CELLS 398 15.3.1.4 BIODETECTION OF PATHOGENS 398 15.4 THERAPEUTICS APPLICATIONS OF NANOPARTICLES 398 15.4.1 DRUG DELIVERY (DS) AND GENE DELIVERY (GD) 398 15.4.2 TUMOR DESTRUCTION VIA HEATING AND RADIATION 399 15.4.3 TISSUE ENGINEERING 401 15.4.4 BACTERIAL INACTIVATION 402 15.5 MASS SPECTROMETRY AND NANOMATERIALS FOR BIOMOLECULE IDENTIFICATION 402 XII \| CONTENTS 15.5.1 GOLD NANOPARTICLES (AUNPS) 403 15.5.2 MAGNETIC, SILICA, AND DIAMOND NANOPARTICLES 408 15.6 CLINICAL PROTEOMICS AND BIOMARKER DETECTION 412 15.7 CONCLUDING REMARKS 414 ACKNOWLEDGMENTS 414 REFERENCES 414 16 ENGINEERING PROTEIN BASED NANOPARTICLES FOR APPLICATIONS IN TISSUE ENGINEERING 425 WITOLD I. TATKIEWICZ, JOAQUIN SERAS-FRANZOSO, CESAR DIEZ-GIL, ELENA GARCIA FRUITOS, ESTHER VAZQUEZ, IMMA RATERA, ANTONI VILLAVERDE, AND JAUME VECIANA 16.1 INTRODUCTION 425 16.2 INCLUSION BODIES; PROTEIN-BASED NANOPARTICLES AS NOVEL BIONANOMATERIAJS 426 16.3 PHYSICOCHEMICAL AND NANOSCALE PROPERTIES OF INCLUSION BODIES 427 16.3.1 HYDROPHILICITY OF INCLUSION BODIES 427 16.3.2 NANOMECHANICAL PROPERTIES OF IBS DETERMINED BY AFM 428 16.3.3 STIFFNESS MAPPING OF THE IBS BY AFM 430 16.3.4 SUPRAMOLECULAR ORGANIZATION OF PROTEIN NANOPARTICLES (IBS) 432 16.4 CELL PROLIFERATION ASSISTED BY PROTEIN-BASED NANOPARTICLES 433 16.4.1 IB-STIMULATION OF CELL PROLIFERATION 433 16.4.2 PROPERTIES OF IBS ARE SENSED BY CELLS 435 16.5 MICROSCALE ENGINEERING OF PROTEIN-BASED NANOPARTICLES FOR CELL GUIDANCE 436 16.6 CONCLUSIONS AND PERSPECTIVES 441 REFERENCES 442 INDEX 447
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id	DE-604.BV042170749
illustrated	Illustrated
indexdate	2024-07-10T01:14:28Z
institution	BVB
isbn	9783527335817 9783527675821
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-027610176
oclc_num	897170606
open_access_boolean
owner	DE-11 DE-703 DE-19 DE-BY-UBM
owner_facet	DE-11 DE-703 DE-19 DE-BY-UBM
physical	XXVI, 457 S. Ill., graph. Darst.
publishDate	2015
publishDateSearch	2015
publishDateSort	2015
publisher	Wiley-VCH
record_format	marc
spelling	Bio- and bioinspired nanomaterials ed. by Daniel Ruiz-Molina ... Weinhein Wiley-VCH 2015 XXVI, 457 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Intelligenter Werkstoff (DE-588)4274825-2 gnd rswk-swf Nanotechnologie (DE-588)4327470-5 gnd rswk-swf Bionik (DE-588)4006888-2 gnd rswk-swf Funktionswerkstoff (DE-588)4841224-7 gnd rswk-swf Biomaterial (DE-588)4267769-5 gnd rswk-swf Nanostrukturiertes Material (DE-588)4342626-8 gnd rswk-swf Biowissenschaften (DE-588)4129772-6 gnd rswk-swf Bionik (DE-588)4006888-2 s Nanostrukturiertes Material (DE-588)4342626-8 s Biowissenschaften (DE-588)4129772-6 s DE-604 Biomaterial (DE-588)4267769-5 s Funktionswerkstoff (DE-588)4841224-7 s Intelligenter Werkstoff (DE-588)4274825-2 s Nanotechnologie (DE-588)4327470-5 s Ruiz-Molina, Daniel (DE-588)1217686959 edt Erscheint auch als Online-Ausgabe, EPUB 978-3-527-67584-5 Erscheint auch als Online-Ausgabe, MOBI 978-3-527-67583-8 Erscheint auch als Online-Ausgabe, PDF 978-3-527-67585-2 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027610176&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Bio- and bioinspired nanomaterials Intelligenter Werkstoff (DE-588)4274825-2 gnd Nanotechnologie (DE-588)4327470-5 gnd Bionik (DE-588)4006888-2 gnd Funktionswerkstoff (DE-588)4841224-7 gnd Biomaterial (DE-588)4267769-5 gnd Nanostrukturiertes Material (DE-588)4342626-8 gnd Biowissenschaften (DE-588)4129772-6 gnd
subject_GND	(DE-588)4274825-2 (DE-588)4327470-5 (DE-588)4006888-2 (DE-588)4841224-7 (DE-588)4267769-5 (DE-588)4342626-8 (DE-588)4129772-6
title	Bio- and bioinspired nanomaterials
title_auth	Bio- and bioinspired nanomaterials
title_exact_search	Bio- and bioinspired nanomaterials
title_full	Bio- and bioinspired nanomaterials ed. by Daniel Ruiz-Molina ...
title_fullStr	Bio- and bioinspired nanomaterials ed. by Daniel Ruiz-Molina ...
title_full_unstemmed	Bio- and bioinspired nanomaterials ed. by Daniel Ruiz-Molina ...
title_short	Bio- and bioinspired nanomaterials
title_sort	bio and bioinspired nanomaterials
topic	Intelligenter Werkstoff (DE-588)4274825-2 gnd Nanotechnologie (DE-588)4327470-5 gnd Bionik (DE-588)4006888-2 gnd Funktionswerkstoff (DE-588)4841224-7 gnd Biomaterial (DE-588)4267769-5 gnd Nanostrukturiertes Material (DE-588)4342626-8 gnd Biowissenschaften (DE-588)4129772-6 gnd
topic_facet	Intelligenter Werkstoff Nanotechnologie Bionik Funktionswerkstoff Biomaterial Nanostrukturiertes Material Biowissenschaften
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027610176&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT ruizmolinadaniel bioandbioinspirednanomaterials

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