Verfügbarkeit: Controlled growth of nanomaterials

Controlled growth of nanomaterials:

Gespeichert in:

Bibliographische Detailangaben
Hauptverfasser:	Zhang, Lide 1939- (VerfasserIn), Fang, Xiaosheng (VerfasserIn), Ye, Changhui (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New Jersey [u.a.] World Scientific 2007
Schlagworte:	Kristallwachstum Nanostrukturiertes Material Patentschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	X, 467 S. Ill., graph. Darst.
ISBN:	9812567283 9789812567284

Internformat

MARC


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Datensatz im Suchindex

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adam_text	LIDE ZHANG XIAOSHENG FANG CHANGHUI YE CHINESE ACADEMY OF SCIENCES, CHINA CONTROLLED GROWTH OF AL -S O WORLD SCIENTIFIC NEW JERSEY * LONDON * SINGAPORE * BEIJING * SHANGHAI * HONGKONG * TAIPEI * CHENNAI CONTENTS 1. INTRODUCTION 1 BIBLIOGRAPHY 8 2. CONTROLLED GROWTH OF NANOWIRES AND NANOBELTS 11 2.1 INTRODUCTION 13 2.2 OXIDES NANOWIRES AND NANOBELTS 14 2.2.1. ZNO 14 2.2.2. SN0 2 19 2.2.3. IN 2 0 3 23 2.2.4. MGO 26 2.2.4.1. CONTROLLED GROWTH OF MGO NANOSTRUCTURES . . 27 2.2.4.2. DIRECT OBSERVATION OF THE GROWTH PROCESS OF MGO NANOFLOWERS 29 2.2.5. A1 2 0 3 32 2.3 SULFIDES NANOWIRES AND NANOBELTS 37 2.3.1. ZNS 37 2.3.2. CDS 42 2.4 DOPING OF NANOWIRES AND NANOBELTS 47 2.4.1. S-DOPED ZNO NANOWIRES 47 2.4.2. CE-DOPED ZNO NANOSTRUCTURES 48 2.4.3. SN-DOPED ZNO NANOBELTS 51 2.4.4. MN-DOPED ZNS NANOBELTS 53 BIBLIOGRAPHY 56 V VI CONTENTS 3. DESIGN AND SYNTHESIS OF ONE-DIMENSIONAL HETEROSTRUCTURES 67 3.1 INTRODUCTION 69 3.2 SYNTHESIS OF ONE-DIMENSIONAL HETEROSTRUCTURES 70 3.2.1. COAXIAL CORE/SHELL STRUCTURE (NANOCABLE) AND BIAXIAL NANOWIRES 70 3.2.2. HETEROJUNCTION AND SUPERLATTICE NANOWIRE STRUCTURE 77 3.2.3. COMPLEX BRANCH STRUCTURE (HIERARCHICAL STRUCTURE) ... 82 3.3 CONCLUDING REMARKS 96 BIBLIOGRAPHY 97 4. QUASI-ZERO DIMENSIONAL NANOARRAYS 101 4.1 SYNTHESIS OF TWO-DIMENSIONAL COLLOID CRYSTALS 103 4.1.1. DROP COATING 105 4.1.2. SPIN-COATING 107 4.1.3. PERPENDICULAR WITHDRAWING 108 4.2 ORDERED NANOARRAYS BASED ON TWO-DIMENSIONAL COLLOIDAL CRYSTAL TEMPLATES 110 4.2.1. ORDERED PORE ARRAYS 112 4.2.1.1. ZNO-ORDERED PORE ARRAYS BASED ON ELECTRO-DEPOSITION AND COLLOIDAL MONOLAYERS 112 4.2.1.2. AU-ORDERED THROUGH-PORE ARRAYS BASED ON ELECTRO-DEPOSITION AND COLLOIDAL MONOLAYERS 120 4.2.1.3. **** MONO- AND MULTI-LAYERED NANOSTRUCTURED POROUS FILMS BASED ON SOLUTION-DIPPING TEMPLATES 128 4.2.1.4. FE203-ORDERED PORE ARRAYS BASED ON SOLUTION-DIPPING TEMPLATES AND COLLOIDAL MONOLAYER 133 4.2.1.5. IN203-ORDERED PORE ARRAYS BASED ON SOLUTION-DIPPING TEMPLATES AND COLLOIDAL MONOLAYERS 141 4.2.2. TWO-DIMENSIONAL ORDERED POLYMER HOLLOW SPHERE AND CONVEX STRUCTURE ARRAYS BASED ON MONOLAYER PORE FILMS 147 4.2.3. AU NANOPARTICLE ARRAYS 153 BIBLIOGRAPHY 159 CONTENTS VII 5. NANOARRAY SYNTHESIS AND CHARACTERIZATION BASED ON ALUMINA TEMPLATES 165 5.1 PREPARATION TECHNIQUES OF ORDERED CHANNEL AAM (ANODIZATION ALUMINA MEMBRANE) TEMPLATES 167 5.1.1. PREPARATION OF ORDERED CHANNEL AAM TEMPLATES .... 168 5.1.2. STRUCTURE AND CHARACTERIZATION OF ORDERED CHANNEL AAM TEMPLATES 170 5.1.3. EXPLORATION OF ORDERED CHANNEL FORMATION MECHANISM 171 5.2 SYNTHESIS AND CHARACTERIZATION OF ORDERED NANOARRAYS 174 5.2.1. ORDERED NANOARRAYS OF ELEMENTS 175 5.2.1.1. ORDERED NANOARRAYS OF METAL NANOWIRES AND NANOTUBES (PB, AG, CU, AU) 175 5.2.1.2. ORDERED NANOARRAYS OF SEMIMETAL NANOWIRES AND NANOTUBES 192 5.2.1.3. ORDERED NANOARRAYS OF SB NANOWIRES AND NANOTUBES 206 5.2.1.4. ORDERED NANOARRAYS OF SEMICONDUCTOR NANOWIRES AND NANOTUBES 210 5.2.1.5. ORDERED NANOARRAYS OF CARBON NANOTUBES . . . 214 5.2.2. ORDERED NANOARRAYS OF BINARY COMPOUND NANOWIRES 226 5.2.2.1. ORDERED NANOARRAYS OF ALLOY NANOWIRES .... 226 5.2.2.2. ORDERED NANOARRAYS OF OXIDE NANOWIRES AND NANOTUBES 232 5.2.2.3. ORDERED NANOARRAYS OF SULPHIDE, SELENIDE, TELLURIDE AND IONIDE NANOWIRES 247 5.2.3. ORDERED NANOARRAYS OF TERNARY COMPOUND NANOWIRES 268 5.2.3.1. CO-NI-P ALLOY NANOARRAYS 268 5.2.3.2. NI-W-P ALLOY NANOWIRE ARRAYS 271 BIBLIOGRAPHY 275 6. CONTROLLED GROWTH OF CARBON NANOTUBES 287 6.1 INTRODUCTION 289 6.2 PREPARATION, MORPHOLOGIES AND STRUCTURES OF SMALL DIAMETER CARBON NANTUBES (CNTS) 291 6.2.1. MULTI-WALLED CARBON NANOTUBES (MWNTS) 292 6.2.2. SINGLE-WALLED CARBON NANOTUBES (SWNTS) 295 6.2.3. DISCUSSION AND ANALYSIS 295 VIII CONTENTS 6.3 VERY LONG CARBON NANOTUBES AND CONTINUOUS CARBON NANOTUBE YARNS (FIBERS) 300 6.3.1. VERY LONG CARBON NANOTUBES 301 6.3.2. SPINNING CONTINUOUS CARBON NANOTUBE YARNS (FIBERS) 304 6.4 CONTROLLED SYNTHESIS OF SINGLE-WALLED CARBON NANOTUBES .... 306 6.4.1. PREPARATION OF PURE SINGLE-WALLED CARBON NANOTUBES 307 6.4.2. DIRECT SYNTHESIS OF A MACROSCALE SINGLE-WALLED CARBON NANOTUBES NON-WOVEN MATERIAL 312 6.4.3. SYNTHESIS OF RANDOM NETWORKS OF SINGLE-WALLED CARBON NANOTUBES 316 6.5 SYNTHESIS OF DOUBLE-WALLED CARBON NANOTUBES (DWNTS) .... 319 BIBLIOGRAPHY 323 7. SYNTHESIS OF INORGANIC NON-CARBON NANOTUBES 327 7.1 INTRODUCTION 329 7.2 SYNTHESIS OF INORGANIC NANOTUBES 330 7.2.1. INORGANIC NANOTUBES BASED ON TWO-DIMENSIONAL STRUCTURES 331 7.2.1.1. INORGANIC NANOTUBES BASED ON GRAPHITE (CARBON NANOTUBES) 331 7.2.1.2. INORGANIC NANOTUBES BASED ON TRANSITION METAL CHALCOGENIDES AND HALIDES 331 7.2.1.3. INORGANIC NANOTUBES BASED ON BORON NITRIDE AND THE DERIVATIVES 339 7.2.1.4. INORGANIC NANOTUBES BASED ON RARE EARTH AND TRANSITION METAL OXIDES AND THEIR DERIVATIVES 340 7.2.2. INORGANIC NANOTUBES BASED ON QUASI-TWO-DIMENSIONAL STRUCTURES 342 7.2.3. INORGANIC NANOTUBES BASED ON THREE-DIMENSIONAL STRUCTURES 350 7.2.4. FORMATION MECHANISMS OF INORGANIC NANOTUBES 355 7.3 CONCLUDING REMARKS 360 BIBLIOGRAPHY 360 CONTENTS IX 8. NOVEL PROPERTIES OF NANOMATERIALS 367 8.1 INTRODUCTION 369 8.2 POLARIZATION CHARACTERISTICS OF METAL NANOWIRE MICROARRAYS EMBEDDED IN ANODIC ALUMINA MEMBRANE TEMPLATES 369 8.2.1. INTRODUCTION 369 8.2.2. OPTICAL MEASUREMENT 370 8.2.3. POLARIZATION CHARACTERISTICS 371 8.2.3.1. CU/AAM 371 8.2.3.2. AG/AAM 374 8.2.3.3. PB/AAM 375 8.2.4. THEORETICAL CALCULATION 376 8.2.4.1. THEORY MODEL 377 8.2.4.2. NUMERICAL SIMULATION 380 8.2.5. CONCLUSION 388 8.3 ELECTRONIC AND MAGNETIC PROPERTIES OF BI-BASED NANOWIRE ARRAYS 388 8.3.1. BI NANOWIRE ARRAYS 389 8.3.2. BI-BI HOMOGENEOUS NANOWIRE JUNCTION 391 8.3.3. Y-SEGMENT BI NANOWIRE ARRAY 392 8.3.4. BI-SB SEGMENT NANOWIRE JUNCTION 394 8.4 THERMAL EXPANSION PROPERTIES OF NANOWIRE ARRAYS 395 8.4.1. AGL NANOWIRE ARRAYS 395 8.4.2. BI NANOWIRE ARRAYS 398 8.4.3. CU NANOWIRE ARRAYS 401 BIBLIOGRAPHY 403 9. APPLICATIONS 407 9.1 INTRODUCTION 409 9.2 SENSORS 409 9.2.1. SNC 2 GAS SENSORS 409 9.2.2. BIOSENSORS 420 9.2.2.1. NANODEVICES FOR ELECTRICAL DETECTION OF SINGLE VIRUSES 420 9.2.2.2. NANOELECTROMECHANICAL DEVICES FOR DETECTION OF VIRUSES 426 9.2.2.3. BIOLOGICAL MAGNETIC SENSORS 431 9.2.2.4. BIOTIN-MODIFIED SI NANOWIRE NANOSENSORS FOR DETECTION OF PROTEIN BINDING 435 X CONTENTS 9.2.2.5. BIO-CONJUGATED NANOPARTICLES FOR RAPID DETECTION OF SINGLE BACTERIAL CELL 438 9.2.2.6. NEAR-INFRARED OPTICAL SENSORS BASED ON SINGLE-WALLED CARBON NANOTUBES 440 9.2.3. CHEMICAL SENSORS 442 9.3 FIELD EMISSION OF CARBON NANOTUBES AND ITS APPLICATION .... 445 9.4 LIGHT POLARIZATION 448 9.5 LIGHT-BULB FILAMENTS MADE OF CARBON NANOTUBE YARNS 453 9.6 ELECTRONIC AND OPTOELECTRONIC NANOSCALE DEVICES 453 BIBLIOGRAPHY 457 INDEX 463
adam_txt	LIDE ZHANG XIAOSHENG FANG CHANGHUI YE CHINESE ACADEMY OF SCIENCES, CHINA CONTROLLED GROWTH OF AL -S \O WORLD SCIENTIFIC NEW JERSEY * LONDON * SINGAPORE * BEIJING * SHANGHAI * HONGKONG * TAIPEI * CHENNAI CONTENTS 1. INTRODUCTION 1 BIBLIOGRAPHY 8 2. CONTROLLED GROWTH OF NANOWIRES AND NANOBELTS 11 2.1 INTRODUCTION 13 2.2 OXIDES NANOWIRES AND NANOBELTS 14 2.2.1. ZNO 14 2.2.2. SN0 2 19 2.2.3. IN 2 0 3 23 2.2.4. MGO 26 2.2.4.1. CONTROLLED GROWTH OF MGO NANOSTRUCTURES . . 27 2.2.4.2. DIRECT OBSERVATION OF THE GROWTH PROCESS OF MGO NANOFLOWERS 29 2.2.5. A1 2 0 3 32 2.3 SULFIDES NANOWIRES AND NANOBELTS 37 2.3.1. ZNS 37 2.3.2. CDS 42 2.4 DOPING OF NANOWIRES AND NANOBELTS 47 2.4.1. S-DOPED ZNO NANOWIRES 47 2.4.2. CE-DOPED ZNO NANOSTRUCTURES 48 2.4.3. SN-DOPED ZNO NANOBELTS 51 2.4.4. MN-DOPED ZNS NANOBELTS 53 BIBLIOGRAPHY 56 V VI CONTENTS 3. DESIGN AND SYNTHESIS OF ONE-DIMENSIONAL HETEROSTRUCTURES 67 3.1 INTRODUCTION 69 3.2 SYNTHESIS OF ONE-DIMENSIONAL HETEROSTRUCTURES 70 3.2.1. COAXIAL CORE/SHELL STRUCTURE (NANOCABLE) AND BIAXIAL NANOWIRES 70 3.2.2. HETEROJUNCTION AND SUPERLATTICE NANOWIRE STRUCTURE 77 3.2.3. COMPLEX BRANCH STRUCTURE (HIERARCHICAL STRUCTURE) . 82 3.3 CONCLUDING REMARKS 96 BIBLIOGRAPHY 97 4. QUASI-ZERO DIMENSIONAL NANOARRAYS 101 4.1 SYNTHESIS OF TWO-DIMENSIONAL COLLOID CRYSTALS 103 4.1.1. DROP COATING 105 4.1.2. SPIN-COATING 107 4.1.3. PERPENDICULAR WITHDRAWING 108 4.2 ORDERED NANOARRAYS BASED ON TWO-DIMENSIONAL COLLOIDAL CRYSTAL TEMPLATES 110 4.2.1. ORDERED PORE ARRAYS 112 4.2.1.1. ZNO-ORDERED PORE ARRAYS BASED ON ELECTRO-DEPOSITION AND COLLOIDAL MONOLAYERS 112 4.2.1.2. AU-ORDERED THROUGH-PORE ARRAYS BASED ON ELECTRO-DEPOSITION AND COLLOIDAL MONOLAYERS 120 4.2.1.3. **** MONO- AND MULTI-LAYERED NANOSTRUCTURED POROUS FILMS BASED ON SOLUTION-DIPPING TEMPLATES 128 4.2.1.4. FE203-ORDERED PORE ARRAYS BASED ON SOLUTION-DIPPING TEMPLATES AND COLLOIDAL MONOLAYER 133 4.2.1.5. IN203-ORDERED PORE ARRAYS BASED ON SOLUTION-DIPPING TEMPLATES AND COLLOIDAL MONOLAYERS 141 4.2.2. TWO-DIMENSIONAL ORDERED POLYMER HOLLOW SPHERE AND CONVEX STRUCTURE ARRAYS BASED ON MONOLAYER PORE FILMS 147 4.2.3. AU NANOPARTICLE ARRAYS 153 BIBLIOGRAPHY 159 CONTENTS VII 5. NANOARRAY SYNTHESIS AND CHARACTERIZATION BASED ON ALUMINA TEMPLATES 165 5.1 PREPARATION TECHNIQUES OF ORDERED CHANNEL AAM (ANODIZATION ALUMINA MEMBRANE) TEMPLATES 167 5.1.1. PREPARATION OF ORDERED CHANNEL AAM TEMPLATES . 168 5.1.2. STRUCTURE AND CHARACTERIZATION OF ORDERED CHANNEL AAM TEMPLATES 170 5.1.3. EXPLORATION OF ORDERED CHANNEL FORMATION MECHANISM 171 5.2 SYNTHESIS AND CHARACTERIZATION OF ORDERED NANOARRAYS 174 5.2.1. ORDERED NANOARRAYS OF ELEMENTS 175 5.2.1.1. ORDERED NANOARRAYS OF METAL NANOWIRES AND NANOTUBES (PB, AG, CU, AU) 175 5.2.1.2. ORDERED NANOARRAYS OF SEMIMETAL NANOWIRES AND NANOTUBES 192 5.2.1.3. ORDERED NANOARRAYS OF SB NANOWIRES AND NANOTUBES 206 5.2.1.4. ORDERED NANOARRAYS OF SEMICONDUCTOR NANOWIRES AND NANOTUBES 210 5.2.1.5. ORDERED NANOARRAYS OF CARBON NANOTUBES . . . 214 5.2.2. ORDERED NANOARRAYS OF BINARY COMPOUND NANOWIRES 226 5.2.2.1. ORDERED NANOARRAYS OF ALLOY NANOWIRES . 226 5.2.2.2. ORDERED NANOARRAYS OF OXIDE NANOWIRES AND NANOTUBES 232 5.2.2.3. ORDERED NANOARRAYS OF SULPHIDE, SELENIDE, TELLURIDE AND IONIDE NANOWIRES 247 5.2.3. ORDERED NANOARRAYS OF TERNARY COMPOUND NANOWIRES 268 5.2.3.1. CO-NI-P ALLOY NANOARRAYS 268 5.2.3.2. NI-W-P ALLOY NANOWIRE ARRAYS 271 BIBLIOGRAPHY 275 6. CONTROLLED GROWTH OF CARBON NANOTUBES 287 6.1 INTRODUCTION 289 6.2 PREPARATION, MORPHOLOGIES AND STRUCTURES OF SMALL DIAMETER CARBON NANTUBES (CNTS) 291 6.2.1. MULTI-WALLED CARBON NANOTUBES (MWNTS) 292 6.2.2. SINGLE-WALLED CARBON NANOTUBES (SWNTS) 295 6.2.3. DISCUSSION AND ANALYSIS 295 VIII CONTENTS 6.3 VERY LONG CARBON NANOTUBES AND CONTINUOUS CARBON NANOTUBE YARNS (FIBERS) 300 6.3.1. VERY LONG CARBON NANOTUBES 301 6.3.2. SPINNING CONTINUOUS CARBON NANOTUBE YARNS (FIBERS) 304 6.4 CONTROLLED SYNTHESIS OF SINGLE-WALLED CARBON NANOTUBES . 306 6.4.1. PREPARATION OF PURE SINGLE-WALLED CARBON NANOTUBES 307 6.4.2. DIRECT SYNTHESIS OF A MACROSCALE SINGLE-WALLED CARBON NANOTUBES NON-WOVEN MATERIAL 312 6.4.3. SYNTHESIS OF RANDOM NETWORKS OF SINGLE-WALLED CARBON NANOTUBES 316 6.5 SYNTHESIS OF DOUBLE-WALLED CARBON NANOTUBES (DWNTS) . 319 BIBLIOGRAPHY 323 7. SYNTHESIS OF INORGANIC NON-CARBON NANOTUBES 327 7.1 INTRODUCTION 329 7.2 SYNTHESIS OF INORGANIC NANOTUBES 330 7.2.1. INORGANIC NANOTUBES BASED ON TWO-DIMENSIONAL STRUCTURES 331 7.2.1.1. INORGANIC NANOTUBES BASED ON GRAPHITE (CARBON NANOTUBES) 331 7.2.1.2. INORGANIC NANOTUBES BASED ON TRANSITION METAL CHALCOGENIDES AND HALIDES 331 7.2.1.3. INORGANIC NANOTUBES BASED ON BORON NITRIDE AND THE DERIVATIVES 339 7.2.1.4. INORGANIC NANOTUBES BASED ON RARE EARTH AND TRANSITION METAL OXIDES AND THEIR DERIVATIVES 340 7.2.2. INORGANIC NANOTUBES BASED ON QUASI-TWO-DIMENSIONAL STRUCTURES 342 7.2.3. INORGANIC NANOTUBES BASED ON THREE-DIMENSIONAL STRUCTURES 350 7.2.4. FORMATION MECHANISMS OF INORGANIC NANOTUBES 355 7.3 CONCLUDING REMARKS 360 BIBLIOGRAPHY 360 CONTENTS IX 8. NOVEL PROPERTIES OF NANOMATERIALS 367 8.1 INTRODUCTION 369 8.2 POLARIZATION CHARACTERISTICS OF METAL NANOWIRE MICROARRAYS EMBEDDED IN ANODIC ALUMINA MEMBRANE TEMPLATES 369 8.2.1. INTRODUCTION 369 8.2.2. OPTICAL MEASUREMENT 370 8.2.3. POLARIZATION CHARACTERISTICS 371 8.2.3.1. CU/AAM 371 8.2.3.2. AG/AAM 374 8.2.3.3. PB/AAM 375 8.2.4. THEORETICAL CALCULATION 376 8.2.4.1. THEORY MODEL 377 8.2.4.2. NUMERICAL SIMULATION 380 8.2.5. CONCLUSION 388 8.3 ELECTRONIC AND MAGNETIC PROPERTIES OF BI-BASED NANOWIRE ARRAYS 388 8.3.1. BI NANOWIRE ARRAYS 389 8.3.2. BI-BI HOMOGENEOUS NANOWIRE JUNCTION 391 8.3.3. Y-SEGMENT BI NANOWIRE ARRAY 392 8.3.4. BI-SB SEGMENT NANOWIRE JUNCTION 394 8.4 THERMAL EXPANSION PROPERTIES OF NANOWIRE ARRAYS 395 8.4.1. AGL NANOWIRE ARRAYS 395 8.4.2. BI NANOWIRE ARRAYS 398 8.4.3. CU NANOWIRE ARRAYS 401 BIBLIOGRAPHY 403 9. APPLICATIONS 407 9.1 INTRODUCTION 409 9.2 SENSORS 409 9.2.1. SNC 2 GAS SENSORS 409 9.2.2. BIOSENSORS 420 9.2.2.1. NANODEVICES FOR ELECTRICAL DETECTION OF SINGLE VIRUSES 420 9.2.2.2. NANOELECTROMECHANICAL DEVICES FOR DETECTION OF VIRUSES 426 9.2.2.3. BIOLOGICAL MAGNETIC SENSORS 431 9.2.2.4. BIOTIN-MODIFIED SI NANOWIRE NANOSENSORS FOR DETECTION OF PROTEIN BINDING 435 X CONTENTS 9.2.2.5. BIO-CONJUGATED NANOPARTICLES FOR RAPID DETECTION OF SINGLE BACTERIAL CELL 438 9.2.2.6. NEAR-INFRARED OPTICAL SENSORS BASED ON SINGLE-WALLED CARBON NANOTUBES 440 9.2.3. CHEMICAL SENSORS 442 9.3 FIELD EMISSION OF CARBON NANOTUBES AND ITS APPLICATION . 445 9.4 LIGHT POLARIZATION 448 9.5 LIGHT-BULB FILAMENTS MADE OF CARBON NANOTUBE YARNS 453 9.6 ELECTRONIC AND OPTOELECTRONIC NANOSCALE DEVICES 453 BIBLIOGRAPHY 457 INDEX 463
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author	Zhang, Lide 1939- Fang, Xiaosheng Ye, Changhui
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genre	(DE-588)4173536-5 Patentschrift gnd-content
genre_facet	Patentschrift
id	DE-604.BV023126863
illustrated	Illustrated
index_date	2024-07-02T19:53:49Z
indexdate	2024-07-09T21:11:40Z
institution	BVB
isbn	9812567283 9789812567284
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-016329261
oclc_num	315849643
open_access_boolean
owner	DE-19 DE-BY-UBM DE-29T DE-11
owner_facet	DE-19 DE-BY-UBM DE-29T DE-11
physical	X, 467 S. Ill., graph. Darst.
publishDate	2007
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publishDateSort	2007
publisher	World Scientific
record_format	marc
spelling	Zhang, Lide 1939- Verfasser (DE-588)1047321963 aut Controlled growth of nanomaterials Lide Zhang ; Xiaosheng Fang ; Changhui Ye New Jersey [u.a.] World Scientific 2007 X, 467 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Literaturangaben Kristallwachstum (DE-588)4123579-4 gnd rswk-swf Nanostrukturiertes Material (DE-588)4342626-8 gnd rswk-swf (DE-588)4173536-5 Patentschrift gnd-content Nanostrukturiertes Material (DE-588)4342626-8 s Kristallwachstum (DE-588)4123579-4 s DE-604 Fang, Xiaosheng Verfasser aut Ye, Changhui Verfasser (DE-588)1047907321 aut GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016329261&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Zhang, Lide 1939- Fang, Xiaosheng Ye, Changhui Controlled growth of nanomaterials Kristallwachstum (DE-588)4123579-4 gnd Nanostrukturiertes Material (DE-588)4342626-8 gnd
subject_GND	(DE-588)4123579-4 (DE-588)4342626-8 (DE-588)4173536-5
title	Controlled growth of nanomaterials
title_auth	Controlled growth of nanomaterials
title_exact_search	Controlled growth of nanomaterials
title_exact_search_txtP	Controlled growth of nanomaterials
title_full	Controlled growth of nanomaterials Lide Zhang ; Xiaosheng Fang ; Changhui Ye
title_fullStr	Controlled growth of nanomaterials Lide Zhang ; Xiaosheng Fang ; Changhui Ye
title_full_unstemmed	Controlled growth of nanomaterials Lide Zhang ; Xiaosheng Fang ; Changhui Ye
title_short	Controlled growth of nanomaterials
title_sort	controlled growth of nanomaterials
topic	Kristallwachstum (DE-588)4123579-4 gnd Nanostrukturiertes Material (DE-588)4342626-8 gnd
topic_facet	Kristallwachstum Nanostrukturiertes Material Patentschrift
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016329261&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT zhanglide controlledgrowthofnanomaterials AT fangxiaosheng controlledgrowthofnanomaterials AT yechanghui controlledgrowthofnanomaterials

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