Verfügbarkeit: Microfluidics

Microfluidics: fundamentals, devices and applications

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Bibliographische Detailangaben
Weitere Verfasser:	Song, Yujun (HerausgeberIn), Cheng, Daojian (HerausgeberIn), Zhao, Liang (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH [2018]
Schlagworte:	Mikrofluidik Analytical Chemistry Analytische Chemie Biophysikalische Chemie Chemie Chemistry Dünne Schichten, Oberflächen u. Grenzflächen Materials Science Materialwissenschaften Pharmaceutical & Medicinal Chemistry Pharmazeutische u. Medizinische Chemie Thin Films, Surfaces & Interfaces Aufsatzsammlung
Online-Zugang:	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34106-1/ Inhaltsverzeichnis
Beschreibung:	xxi, 554 Seiten Illustrationen, Diagramme 24.4 cm x 17 cm
ISBN:	9783527341061 3527341064

Internformat

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Datensatz im Suchindex

_version_	1804178325210398720
adam_text	CONTENTS PREFACE XIII ACKNOWLEDGMENTS XV ABBREVIATIONS XVII 1 INTRODUCTION: THE ORIGIN, CURRENT STATUS, AND FUTURE OF MICROFLUIDICS 1 KIN FONG LEI 1.1 INTRODUCTION 1 1.2 DEVELOPMENT OF MICROFLUIDIC COMPONENTS 3 1.3 DEVELOPMENT OF COMPLEX MICROFLUIDIC SYSTEMS 4 1.4 DEVELOPMENT OF APPLICATION-ORIENTED MICROFLUIDIC SYSTEMS 6 1.4.1 APPLICATIONS OF DNA ASSAYS 6 1.4.2 APPLICATIONS OF IMMUNOASSAYS 9 1.4.3 APPLICATIONS OF CELL-BASED ASSAYS 11 1.5 PERSPECTIVE 14 REFERENCES 14 2 FUNDAMENTAL CONCEPTS AND PHYSICS IN MICROFLUIDICS 19 YUJUN SONG, XIAOXIONG ZHAO, QINGKUN TIAN, AND HONGXIA LIANG 2.1 INTRODUCTION 19 2.2 BASIC CONCEPTS OF LIQUIDS AND GASES 21 2.2.1 MEAN FREE PATH (A) IN FLUIDS AMONG MOLECULAR COLLISIONS 21 2.2.2 VISCOSITY (FT) OF FLUIDS 22 2.2.3 MASS DIFFUSIVITY (D) 29 2.2.4 HEAT (THERMAL) CAPACITY 34 2.3 MASS AND HEAT TRANSFER PRINCIPLES FOR FLUID 41 2.3.1 BASIC FLUIDIC CONCEPTS AND LAW FOR MASS AND HEAT TRANSFER 42 2.3.1.1 PASCAL S LAW AND LAPLACE S LAW 42 2.3.1.2 MASS CONSERVATION PRINCIPLE (CONTINUITY EQUATION) 44 2.3.1.3 ENERGY CONSERVATION (BERNOULLI S EQUATION) 44 2.3.1.4 POISEUILLE S LAW 45 2.3.1.5 VELOCITY PROFILE OF LAMINAR FLOW IN A CIRCULAR TUBE 46 2.3.2 IMPORTANT DIMENSIONLESS NUMBERS IN FLUID PHYSICS 47 2.3.3 OTHER DIMENSIONLESS NUMBERS IN FLUIDS 50 2.3.4 DIFFUSION LAWS 56 2.3.5 CONVERSION EQUATION BASED ON NAVIER-STOKES EQUATIONS 59 2.3.5.1 CONSERVATION OF MASS EQUATION 60 23.5,2 CONSERVATION OF MOMENTUM EQUATION (NAVIER-STOKES EQUATION) 61 2.3 5.3 CONSERVATION OF ENERGY EQUATION 62 2.4 SURFACES AND INTERFACES IN MICROFLUIDICS 62 2.4.1 SURFACE/INTERFACE AND SURFACE TENSION 62 2.4.2 SURFACE-ZINTERFACE-INDUCED BUBBLE FORMATION 66 2.4.3 EFFECT OF SURFACTANTS ON THE SURFACE/INTERFACE ENERGY FOR WETTING 68 2.4.4 FEATURES OF SURFACE AND INTERFACE IN MICROFLUIDICS 69 2.4.5 CAPILLARY EFFECTS IN MICROFLUIDIC DEVICES 70 2.4.6 DROPLET FORMATION IN MICROFLUIDICS 71 2.5 DEVELOPMENT OF DRIVING FORCES FOR MICROFLUIDIC PROCESSES 74 2.5.1 FUNDAMENTAL IN ELECTROKINETIC METHODS FOR MICROFLUIDICS 76 2.5.2 BASIC PRINCIPLES OF MAGNETIC FIELD-COUPLED MICROFLUIDIC PROCESS 81 2.5.3 BASIC PRINCIPLES IN OPTOFLUIDIC PROCESSES FOR MICROFLUIDICS 83 2.6 CONSTRUCTION MATERIALS CONSIDERATIONS 94 ACKNOWLEDGMENTS 100 REFERENCES 100 3 MICROFLUIDICS DEVICES: FABRICATION AND SURFACE MODIFICATION 113 ZHENFENG WANG AND TAO ZHANG 3.1 INTRODUCTION 113 3.2 MICROFLUIDICS DEVICE FABRICATION 113 3.2.1 SILICON AND GLASS FABRICATION PROCESS 114 3.2.1.1 PHOTOLITHOGRAPHY 117 3.2.1.2 ETCHING 117 3.2.1.3 METALLIZATION 117 3.2.1.4 BONDING 117 3.2.2 POLYMER FABRICATION PROCESS 119 3.2.2.1 PATTERNING 119 3.2.2.2 BONDING 125 3.2.23 METALLIZATION 128 3.2.2A 3D PRINTING 128 3.2.23 SURFACE TREATMENT 129 3.2.3 FABRICATION FOR EMERGING MICROFLUIDICS DEVICES 129 3.3 SURFACE MODIFICATION IN MICROFLUIDICS FABRICATION 129 3.3.1 PLASMA TREATMENT 132 3.3.2 SURFACE MODIFICATION USING SURFACTANT 134 3.3.3 SURFACE MODIFICATION WITH GRAFTING POLYMERS 135 3.3.3.1 SURFACE PHOTO-GRAFTING POLYMERIZATION 135 3.3.3.2 SURFACE-INITIATED ATOM TRANSFER RADICAL POLYMERIZATION (SI-ATRP) 137 3.3.3 3 GRAFTING-TO TECHNIQUE 142 3.3.4 NANOMATERIALS FOR BULK MODIFICATION OF POLYMERS 142 3.4 CONCLUSIONS AND OUTLOOK 143 REFERENCES 144 4 NUMERICAL SIMULATION IN MICROFLUIDICS AND THE INTRODUCTION OF THE RELATED SOFTWARE 147 ZHENG ZHAO, ADRIAN FISHER, AND DAOJIAN CHENG 4.1 INTRODUCTION 147 4.2 NUMERICAL SIMULATION MODELS IN MICROFLUIDICS 148 4.2.1 MOLECULAR DYNAMICS (MD) 148 4.2.2 THE DIRECT SIMULATION MONTE CARLO (DSMC) METHOD 151 4.2.3 THE DISSIPATIVE PARTICLE DYNAMICS (DPD) 153 4.2.4 CONTINUUM METHOD (CM) 155 4.2.5 THE LATTICE BOLTZMANN METHOD (LBM) 158 4.2.6 COMPUTATIONAL FLUID DYNAMICS (CFD) 160 4.3 NUMERICAL SIMULATION SOFTWARE IN MICROFLUIDICS 161 4.3.1 CFD-ACE+ SOFTWARE: MICROFLUIDICS APPLICATIONS 162 4.3.2 CFX SOFTWARE: MICROFLUIDICS APPLICATIONS 162 4.3.3 FLOW-3D SOFTWARE: MICROFLUIDICS APPLICATIONS 164 4.3.4 OTHER SOFTWARE: MICROFLUIDICS APPLICATIONS 166 4.4 CONCLUSIONS 166 ACKNOWLEDGMENTS 167 REFERENCES 168 5 DIGITAL MICROFLUIDIC SYSTEMS: FUNDAMENTALS, CONFIGURATIONS, TECHNIQUES, AND APPLICATIONS 175 MOHAMED YAFIA, BARA J. EMRAN, AND HOMAYOUN NAJJARAN 5.1 INTRODUCTION TO MICROFLUIDIC SYSTEMS 175 5.2 TYPES OF DIGITAL MICROFLUIDIC SYSTEMS 177 5.3 DMF CHIP FABRICATION TECHNIQUES 179 5.4 DIFFERENT ELECTRODE CONFIGURATIONS IN DMF SYSTEMS 181 5.5 DIGITAL MICROFLUIDIC WORKING PRINCIPLE 183 5.5.1 ELECTROMECHANICAL AND ENERGY-BASED MODELS 183 5.5.2 NUMERICAL MODELS 184 5.5.3 ANALYTICAL MODELS 184 5.6 ELECTRICAL SIGNALS USED AND THEIR EFFECT ON THE DMF OPERATIONS 185 5.6.1 TYPES OF THE SIGNALS USED IN ACTUATION 185 5.6.2 THE EFFECT OF CHANGING THE FREQUENCY 187 5.7 DROPLET METERING AND DISPENSING TECHNIQUES IN DMF SYSTEMS 188 5.8 THE EFFECT OF THE GAP HEIGHT BETWEEN THE TOP PLATE AND THE BOTTOM PLATE IN DMF SYSTEMS 189 5.9 MODELING AND CONTROLLING DROPLET OPERATIONS IN DMF SYSTEMS 192 5.9.1 FEEDBACK CONTROL IN DMF SYSTEMS 192 5.9.2 DROPLET SENSING TECHNIQUES IN DMF SYSTEMS 195 5.9.3 DROPLET ROUTING IN DMF SYSTEMS 195 5.9.4 CONTROLLING AND ADDRESSING THE SIGNALS IN DMF SYSTEMS 197 5.10 PROSPECTS OF PORTABILITY IN DMF PLATFORMS 199 5.11 EXAMPLES FOR CHEMICAL AND BIOLOGICAL APPLICATIONS PERFORMED ON THE DMF PLATFORM 199 REFERENCES 203 6 MICROFLUIDICS FOR CHEMICAL ANALYSIS 211 PENG SONG, ADRIAN C. FISHER, LUWEN MENG, AND HOANG V. NGUYEN 6.1 INTRODUCTION 211 6.2 MICROFLUIDICS FOR ELECTROCHEMICAL ANALYSIS 212 6.2.1 VOLTAMMETRIC ANALYSIS 212 6.2.2 AMPEROMETRIC PROTOCOL 216 6.2.3 POTENTIOMETRIE PROTOCOL 219 6.2.4 CONDUCTIVITY PROTOCOL 221 6.3 ADVANCED MICROFLUIDIC METHODOLOGIES FOR ELECTROCHEMICAL ANALYSIS 223 6.3.1 THE ROTATING MICRODROPLET 223 6.3.2 THE MICROJET ELECTRODE 224 6.3.3 CHANNEL MULTIPLEX 225 6.4 NUMERICAL MODELING OF ELECTROCHEMICAL MICROFLUIDIC TECHNOLOGIES 226 REFERENCES 229 7 MICROFLUIDIC DEVICES FOR THE ISOLATION OF CIRCULATING TUMOR CELLS (CTCS) 237 CAROLINE C. AHRENS, ZIYE DONG, AND WEI LI 7.1 INTRODUCTION 237 7.2 AFFINITY-BASED ENRICHMENT OF CTCS 241 7.2.1 CTC-CHIP 243 7.2.2 GEOMETRICALLY ENHANCED DIFFERENTIAL IMMUNOCAPTURE (GEDI) 243 7.2.3 HERRINGBONE (HB)-CHIP 244 7.2.4 CTC-ICHIP 244 7.2.5 HIGH-THROUGHPUT MICROSAMPLING UNIT (HTMSU) 245 7.2.6 ONCOBEAN CHIP 246 7.2.7 NANOVELCRO RARE CELL ASSAYS 246 7.2.8 GO CHIP 246 7.2.9 CTC SUBPOPULATION SORTING 247 7.3 NONAFFINITY-BASED ENRICHMENT OF CTCS 247 7.3.1 MICROFLUIDIC FILTRATION 249 7.3.2 INERTIAL METHODS 250 7.3.2.1 DETERMINISTIC LATERAL DISPLACEMENT (DLD) 250 7.3.2.2 MICROFLUIDIC SPIRAL SEPARATION 250 73.23 VORTEX PLATFORM 251 73.2A MULTIORIFICE FLOW FRACTIONATION (MOFF) 251 7.3.3 DIELECTROPHORESIS AND ACOUSTOPHORESIS 251 7.4 CONCLUSIONS AND OUTLOOK 252 REFERENCES 254 8 MICROFLUIDICS FOR DISEASE DIAGNOSIS 261 JUN-TAO CAO 8.1 INTRODUCTION 261 8.2 PROTEIN ANALYSIS 261 8.2.1 SECRETED PROTEINS IN BIOLOGICAL FLUIDS 261 8.2.2 MEMBRANE PROTEIN 264 8.3 NUCLEIC ACID ANALYSIS 267 8.4 CELL DETECTION 269 8.5 OTHER SPECIES 272 8.6 SUMMARY AND OVERLOOK 275 REFERENCES 275 9 GENE EXPRESSION ANALYSIS ON MICROFLUIDIC DEVICE 279 LIANG ZHAO 9.1 INTRODUCTION 279 9.2 ANALYSIS CELL POPULATION GENE EXPRESSION ON CHIP 281 9.2.1 NUCLEIC ACID ANALYSIS 281 9.2.2 PROTEIN LEVEL ANALYSIS OF GENE EXPRESSION 283 9.3 SINGLE-CELL GENE EXPRESSION PROFILING 288 9.3.1 IMAGING-BASED SINGLE-CELL ANALYSIS ON MICROFLUIDICS 289 9.3.2 MICROFLUIDIC METHODS TO SINGLE-CELL NUCLEIC ACID ANALYSIS 292 9.3.3 NEXT-GENERATION SEQUENCING PLATFORMS BASED ON MINIATURIZED SYSTEMS 301 9.4 CONCLUSION 305 ACKNOWLEDGMENT 306 REFERENCES 306 10 COMPUTATIONAL MICROFLUIDICS APPLIED TO DRUG DELIVERY IN PULMONARY AND ARTERIAL SYSTEMS 311 CLEMENT KLEINSTREUER AND ZELIN XU 10.1 INTRODUCTION 311 10.2 MODELING METHODS 312 10.2.1 GOVERNING EQUATIONS 312 10.2.2 MODEL CLOSURE 312 10.2.3 TURBULENCE MODELING 313 10.2.4 FLUID-PARTICLE DYNAMICS MODELING 313 10.2.5 FERROFLUID DYNAMICS 315 10.2.6 NONSPHERICAL PARTICLE DYNAMICS 316 10.2.7 FLOW THROUGH POROUS MEDIA 316 10.2.8 FLUID-STRUCTURE INTERACTION 317 10.3 PULMONARY DRUG DELIVERY 318 10.3.1 INHALERS AND DRUG-AEROSOL TRANSPORT 319 10.3.2 DRUG-AEROSOL DYNAMICS 322 10.3.3 METHODOLOGIES AND DESIGN ASPECTS FOR DIRECT DRUG DELIVERY 323 10.3.3.1 SMART INHALER SYSTEM METHODOLOGY 325 10.3.3.2 ENHANCED DEEPER LUNG DELIVERY OF DRUG AEROSOLS VIA CONDENSATIONAL GROWTH 326 10.3.3.3 SHAPE ENGINEERING FOR NOVEL DRUG CARRIERS 326 10.3.3.4 MULTIFUNCTIONAL NANOPARTICLES 327 10.3.3.5 PARTICLE ABSORPTION AND TRANSLOCATION 328 10.4 INTRAVASCULAR DRUG DELIVERY 328 10.4.1 NANOPARTICLE-BASED TARGETED DRUG DELIVERY 329 10.4.2 CATHETER-BASED INTRAVASCULAR DRUG DELIVERY 330 10.4.2.1 PARTICLE HEMODYNAMICS 331 10.4.2.2 TISSUE HEAT AND MASS TRANSFER 332 10.4.3 MAGNETIC DRUG DELIVERY 333 10.4.4 DIRECT DRUG DELIVERY 335 10.5 CONCLUSIONS AND FUTURE WORK 338 REFERENCES 339 11 MICROFLUIDIC SYNTHESIS OF ORGANICS 351 HONGXIA LIANG AND YUJUN SONG 11.1 INTRODUCTION 351 11.2 MICROFLUIDIC NEBULATOR FOR ORGANIC SYNTHESIS 355 11.3 COILED TUBING MICROREACTOR FOR ORGANIC SYNTHESIS 356 11.4 CHIP-BASED MICROFLUIDIC REACTOR FOR ORGANIC SYNTHESIS 360 11.5 PACKED-BED MICROREACTORS FOR ORGANIC SYNTHESIS 363 11.6 RING-SHAPED (TUBE-IN-TUBE) MICROFLUIDIC REACTOR FOR ORGANIC SYNTHESIS 365 11.7 SUMMARY AND OUTLOOK 368 ACKNOWLEDGMENTS 369 REFERENCES 369 12 MICROFLUIDIC APPROACHES FOR DESIGNING MULTIFUNCTIONAL POLYMERIC MICROPARTICLES FROM SIMPLE EMULSIONS TO COMPLEX PARTICLES 375 JONGMIN KIM AND CHANG-SOO LEE 12.1 INTRODUCTION 375 12.2 FLOW REGIMES IN MICROFLUIDICS: DRIPPING, JETTING, AND COFLOWING 376 12.2.1 DIMENSIONLESS NUMBERS 377 12.2.2 T-JUNCTION MICROFLUIDICS 377 12.2.3 FLOW-FOCUSING MICROFLUIDICS 378 12.2.4 COFLOWING MICROFLUIDICS 379 12.3 DESIGN OF MULTIFUNCTIONAL MICROPARTICLES FROM EMULSIONS 380 12.3.1 MICROFLUIDIC APPROACHES WITH CONTROL OF THE HYDRODYNAMIC PARAMETERS 380 12.3.2 MICROFLUIDIC APPROACHES WITH PHASE SEPARATION 393 12.3.3 MICROFLUIDIC APPROACHES WITH SPREADING COEFFICIENTS 397 12.4 CONCLUSIONS AND OUTLOOKS 398 REFERENCES 399 13 SYNTHESIS OF MAGNETIC NANOMATERIALS 405 ALI ABOU-HASSAN 13.1 INTRODUCTION 405 13.2 SYNTHESIS OF MAGNETIC NANOMATERIALS USING MICROREACTORS 406 13.2.1 MAGNETIC IRON OXIDE-BASED NANOMATERIALS 406 13.2.2 SYNTHESIS OF METALLIC AND MAGNETIC NANOMATERIALS 412 13.2.3 SYNTHESIS OF CORE-SHELL MAGNETIC NANOMATERIALS 414 13.3 CONCLUSION 416 REFERENCES 416 14 MICROFLUIDIC SYNTHESIS OF METALLIC NANOMATERIALS 419 JUGANG MA AND YUJUN SONG 14.1 INTRODUCTION 419 14.2 MICROFLUIDIC PROCESSES FOR METALLIC NANOMATERIAL SYNTHESIS 421 14.3 CRYSTAL STRUCTURE-CONTROLLED SYNTHESIS OF METALLIC NANOCRYSTALS 422 14.4 SIZE- AND SHAPE-CONTROLLED SYNTHESIS OF METALLIC NANOCRYSTALS 426 14.5 MULTI-HIERARCHICAL MICROSTRUCTURE- AND COMPOSITION-CONTROLLED SYNTHESIS OF METALLIC NANOCRYSTALS 434 14.6 SUMMARY AND OUTLOOK 437 ACKNOWLEDGMENTS 439 REFERENCES 439 15 MICROFLUIDIC SYNTHESIS OF COMPOSITES 44S JUNMEI WANG AND YUJUN SONG 15.1 INTRODUCTION 445 15.2 MICROFLUIDIC SYNTHESIS SYSTEMS AND THE DESIGN PRINCIPLES 447 15.3 THE FORMATION MECHANISM OF COMPOSITES 451 15.4 MICROFLUIDIC SYNTHESIS OF COMPOSITES 452 15.4.1 COMPOSITES COMPOSED OF NONMETAL INORGANICS 452 15.4.1.1 MICROFLUIDIC SYNTHESIS OF OXIDE-COATED MULTIFUNCTIONAL COMPOSITES 453 15.4.1.2 MICROFLUIDIC SYNTHESIS OF SEMICONDUCTOR-SEMICONDUCTOR COMPOSITES 455 15.4.2 COMPOSITES COMPOSED OF METAL AND NONMETAL INORGANICS 457 15.4.2.1 MICROFLUIDIC SYNTHESIS OF DIELECTRIC-PLASMONIC COMPOSITES 457 15.4.2.2 MICROFLUIDIC SYNTHESIS OF PLASMONIC-SEMICONDUCTOR COMPOSITES 459 15.4.2.3 MICROFLUIDIC SYNTHESIS OF CARBON-SUPPORTED COMPOSITES 461 15.4.3 COMPOSITES COMPOSED OF POLYMERS AND METALS 464 15.4.4 COMPOSITES COMPOSED OF METAL OR METAL ALLOY MATERIALS 464 15.4.5 COMPOSITES COMPOSED OF POLYMER AND ORGANIC MOLECULAR 466 15.4.6 COMPOSITES COMPOSED OF TWO OR MORE POLYMERS 469 15.4.7 MICROFLUIDIC SYNTHESIS OF METAL-ORGANIC FRAMEWORKS (MOFS) 470 15.5 SUMMARY AND PERSPECTIVES 471 ACKNOWLEDGMENTS 472 REFERENCES 472 16 MICROFLUIDIC SYNTHESIS OF MOFS AND MOF-BASED MEMBRANES 479 FERNANDO CACHO-BAILO, CARLOS TELLEZ, AND JOAQUIN CORONAS 16.1 MICROFLUIDIC SYNTHESIS OF METAL-ORGANIC FRAMEWORKS (MOFS) 479 16.1.1 ZEOLITE BACKGROUND 479 16.1.2 MICROFLUIDIC MOF SYNTHESIS 480 16.2 MICROFLUIDIC SYNTHESIS OF MOF-BASED MEMBRANES 488 16.2.1 CONTEXT 488 16.2.2 MOF MEMBRANES BY MICROFLUIDICS 489 16.2.3 INORGANIC VERSUS POLYMERIC SUPPORTS: INTENSIFICATION OF PROCESSES 501 16.2.4 SUPPORT INFLUENCE ON MOF SYNTHESIS METHOD 504 16.2.5 ADVANTAGES OF INNER MOF GROWTH 506 16.3 CONCLUSIONS AND OUTLOOK 507 ACKNOWLEDGMENTS 508 REFERENCES 508 17 PERSPECTIVE FOR MICROFLUIDICS 517 YUJUN SONG AND DAOJIAN CHENG 17.1 DESIGN, FABRICATION, AND ASSEMBLE OF MICROFLUIDIC SYSTEMS 518 17.2 PRECISE CONTROL OF CRITICAL DEVICE FEATURES FOR CHEMICAL ANALYSIS AND BIOMEDICAL ENGINEERING 521 17.3 CONTROL OF CRITICAL KINETIC PARAMETERS FOR CHEMICAL AND MATERIALS SYNTHESIS 522 17.4 DEVELOPMENT OF FUNDAMENTAL THEORY AT MICRO-/NANOSCALE AND FLUID MECHANISM AT NANOLITER-PICOLITER FOR MICROFLUIDIC SYSTEMS 525 ACKNOWLEDGMENTS 529 REFERENCES 529 INDEX 541
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discipline	Chemie / Pharmazie Physik Elektrotechnik / Elektronik / Nachrichtentechnik
format	Book
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genre_facet	Aufsatzsammlung
id	DE-604.BV044827286
illustrated	Illustrated
indexdate	2024-07-10T08:02:10Z
institution	BVB
institution_GND	(DE-588)16179388-5
isbn	9783527341061 3527341064
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-030222176
oclc_num	1029210882
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owner	DE-703 DE-29T DE-20 DE-634
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physical	xxi, 554 Seiten Illustrationen, Diagramme 24.4 cm x 17 cm
publishDate	2018
publishDateSearch	2018
publishDateSort	2018
publisher	Wiley-VCH
record_format	marc
spelling	Microfluidics fundamentals, devices and applications edited by Yujun Song, Daojian Cheng, and Liang Zhao Weinheim Wiley-VCH [2018] xxi, 554 Seiten Illustrationen, Diagramme 24.4 cm x 17 cm txt rdacontent n rdamedia nc rdacarrier Mikrofluidik (DE-588)4803438-1 gnd rswk-swf Analytical Chemistry Analytische Chemie Biophysikalische Chemie Chemie Chemistry Dünne Schichten, Oberflächen u. Grenzflächen Materials Science Materialwissenschaften Pharmaceutical & Medicinal Chemistry Pharmazeutische u. Medizinische Chemie Thin Films, Surfaces & Interfaces (DE-588)4143413-4 Aufsatzsammlung gnd-content Mikrofluidik (DE-588)4803438-1 s DE-604 Song, Yujun (DE-588)1153919206 edt Cheng, Daojian edt Zhao, Liang (DE-588)1044806850 edt Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, ePDF 978-3-527-80062-9 Erscheint auch als Online-Ausgabe, ePub 978-3-527-80065-0 Erscheint auch als Online-Ausgabe, Mobi 978-3-527-80066-7 Erscheint auch als Online-Ausgabe, oBook 978-3-527-80064-3 X:MVB http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34106-1/ DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030222176&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Microfluidics fundamentals, devices and applications Mikrofluidik (DE-588)4803438-1 gnd
subject_GND	(DE-588)4803438-1 (DE-588)4143413-4
title	Microfluidics fundamentals, devices and applications
title_auth	Microfluidics fundamentals, devices and applications
title_exact_search	Microfluidics fundamentals, devices and applications
title_full	Microfluidics fundamentals, devices and applications edited by Yujun Song, Daojian Cheng, and Liang Zhao
title_fullStr	Microfluidics fundamentals, devices and applications edited by Yujun Song, Daojian Cheng, and Liang Zhao
title_full_unstemmed	Microfluidics fundamentals, devices and applications edited by Yujun Song, Daojian Cheng, and Liang Zhao
title_short	Microfluidics
title_sort	microfluidics fundamentals devices and applications
title_sub	fundamentals, devices and applications
topic	Mikrofluidik (DE-588)4803438-1 gnd
topic_facet	Mikrofluidik Aufsatzsammlung
url	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34106-1/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030222176&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT songyujun microfluidicsfundamentalsdevicesandapplications AT chengdaojian microfluidicsfundamentalsdevicesandapplications AT zhaoliang microfluidicsfundamentalsdevicesandapplications AT wileyvch microfluidicsfundamentalsdevicesandapplications

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