Verfügbarkeit: Carbon nanotubes

Carbon nanotubes: synthesis, structure, properties, and applications

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2001
Schriftenreihe:	Topics in applied physics 80
Schlagworte:	Carbone Koolstofverbindingen Matériau nanocristallin Matériaux nanocristallins Nanostructure Nanostructuren Nanotube de carbone Tubes Carbon Carbon > chemistry Microscopy, Scanning Probe Nanostructured materials Nanotechnology > methods Spectrum Analysis, Raman Kohlenstoff-Nanoröhre FÍsica
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XV, 447 S. Ill., graph. Darst.
ISBN:	3540410864

Internformat

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adam_text	CONTENTS INTRODUCTION TO CARBON MATERIALS RESEARCH MILDRED S. DRESSELHAUS AND PHAEDON AVOURIS . 1 1. HISTORICAL INTRODUCTION . 1 2. BASIC BACKGROUND . 3 REFERENCES . 8 RELATION OF CARBON NANOTUBES TO OTHER CARBON MATERIALS MILDRED S. DRESSELHAUS AND MORINOBU ENDO . 11 1. BONDING BETWEEN CARBON ATOMS . 12 2. GRAPHITE . 14 3. GRAPHITE WHISKERS . 17 4. CARBON FIBERS . 17 4.1. HISTORY OF CARBON FIBERS IN RELATION TO CARBON NANOTUBES . 21 5. LIQUID CARBON . 23 6. GRAPHITE INTERCALATION COMPOUNDS . 25 REFERENCES . 26 NANOTUBE GROWTH AND CHARACTERIZATION HONGJIE DAI . 29 1. NANOTUBE GROWTH METHODS . 30 1.1. ARC-DISCHARGE AND LASER ABLATION . 30 1.2. CHEMICAL VAPOR DEPOSITION . 32 1.2.1. GENERAL APPROACH AND MECHANISM . 32 1.2.2. SINGLE-WALLED NANOTUBE GROWTH AND OPTIMIZATION . 34 1.2.3. GROWTH MODE OF SINGLE-WALLED NANOTUBES IN CVD . 38 1.3. GAS PHASE CATALYTIC GROWTH . 39 2. CONTROLLED NANOTUBE GROWTH BY CHEMICAL VAPOR DEPOSITION . 39 2.1. ALIGNED MULTI-WALLED NANOTUBE STRUCTURES . 40 2.2. DIRECTED GROWTH OF SINGLE-WALLED NANOTUBES . 41 2.3. GROWTH OF ISOLATED NANOTUBES ON SPECIFIC SURFACE SITES . 44 X CONTENTS 2.4. FROM GROWTH TO MOLECULAR-WIRE DEVICES . 45 2.4.1. ELECTRICAL PROPERTIES OF INDIVIDUAL NANOTUBES . 45 2.4.2. NANOTUBE ELECTROMECHANICAL PROPERTIES AND DEVICES . 47 3. CONCLUSIONS . 50 REFERENCES . 51 GROWTH MECHANISMS OF CARBON NANOTUBES JEAN-CHRISTOPHE CHARLIER AND SUMIO IIJIMA . 55 1. EXPERIMENTAL FACTS FOR GROWTH MODELS . 56 2. OPEN OR CLOSE-ENDED GROWTH FOR MULTI-WALLED NANOTUBES ? . 57 3. MACROSCOPIC MODEL FOR MULTI-WALLED NANOTUBE GROWTH . 63 4. " LIP-LIP " INTERACTION MODELS FOR MULTI-WALLED NANOTUBE GROWTH . 63 5. IS UNCATALYZED GROWTH POSSIBLE FOR SINGLE-SHELL NANOTUBES ? . 66 6. CATALYTIC GROWTH MECHANISMS FOR SINGLE-SHELL NANOTUBES . 67 7. CATALYTIC GROWTH MECHANISM FOR NANOTUBE BUNDLES . 73 8. ROOT GROWTH MECHANISM FOR SINGLE-SHELL NANOTUBES . 75 9. CONCLUSION . 77 REFERENCES . 79 NANOTUBES FROM INORGANIC MATERIALS RESHEF TENNE AND ALEX K. ZETTL . 81 1. CATEGORIZING DIFFERENT INORGANIC COMPOUNDS FORMING NANOTUBULAR STRUCTURES . 84 2. SYNTHESIS OF INORGANIC NANOTUBES . 85 3. THERMODYNAMIC AND TOPOLOGICAL CONSIDERATIONS . 96 4. PHYSICAL PROPERTIES . 98 4.1. BAND STRUCTURE CALCULATIONS . 99 4.2. OPTICAL STUDIES IN THE UV AND VISIBLE . 101 4.3. RAMAN SPECTROSCOPY . 104 4.4. MECHANICAL PROPERTIES . 105 5. APPLICATIONS . 107 6. CONCLUSIONS . 108 REFERENCES . 109 ELECTRONIC PROPERTIES, JUNCTIONS, AND DEFECTS OF CARBON NANOTUBES STEVEN G. LOUIE . 113 1. GEOMETRIC AND ELECTRONIC STRUCTURE OF CARBON NANOTUBES . 114 2. ELECTRONIC AND TRANSPORT PROPERTIES OF ON-TUBE STRUCTURES . 121 2.1. NANOTUBE JUNCTIONS . 122 2.2. IMPURITIES, STONE-WALES DEFECTS, AND STRUCTURAL DEFORMATIONS IN METALLIC NANOTUBES . 128 CONTENTS XI 3. NANOTUBE ROPES, CROSSED-TUBE JUNCTIONS, AND EFFECTS OF LONG-RANGE PERTURBATIONS . 133 3.1. ROPES OF NANOTUBES . 133 3.2. CROSSED-TUBE JUNCTIONS . 135 3.3. EFFECTS OF LONG-RANGE DISORDER AND EXTERNAL PERTURBATIONS . 137 4. SUMMARY . 141 REFERENCES . 142 ELECTRICAL TRANSPORT THROUGH SINGLE-WALL CARBON NANOTUBES ZHEN YAO, CEES DEKKER AND PHAEDON AVOURIS . 147 1. TRANSPORT IN INDIVIDUAL NANOTUBES . 148 1.1. DEVICE GEOMETRY AND ROOM-TEMPERATURE CHARACTERIZATION . 148 1.1.1. ELECTRICAL CONTACTS . 148 1.1.2. FIELD-EFFECT TRANSISTORS WITH SEMICONDUCTING NANOTUBES . 150 1.2. LOW-TEMPERATURE MESOSCOPIC ELECTRON TRANSPORT . 151 1.2.1. COULOMB BLOCKADE AND TRANSPORT SPECTROSCOPY . 151 1.2.2. SUPERCONDUCTING PROXIMITY EFFECT . 153 1.3. ELECTRON-ELECTRON AND ELECTRON-PHONON INTERACTIONS . 154 1.3.1. ELECTRON CORRELATIONS AND LUTTINGER-LIQUID BEHAVIOR . 154 1.3.2. LARGE-BIAS TRANSPORT AND PHONON SCATTERING . 157 1.4. NANOTUBE JUNCTIONS AND ELECTROMECHANICAL EFFECTS . 158 1.4.1. INTRAMOLECULAR JUNCTIONS . 158 1.4.2. CROSSED JUNCTIONS . 159 1.4.3. ELECTROMECHANICAL EFFECTS . 160 1.5. SUMMARY . 160 2. TRANSPORT IN SINGLE WALL NANOTUBE ROPES . 161 2.1. SCATTERING AND LOCALIZATION PHENOMENA . 161 2.1.1. WEAK LOCALIZATION . 161 2.1.2. SPIN EFFECTS . 166 2.1.3. STRONG LOCALIZATION . 166 2.2. INTER-TUBE TRANSPORT IN NANOTUBE ROPES . 167 3. CONCLUSION . 168 REFERENCES . 168 SCANNING PROBE MICROSCOPY STUDIES OF CARBON NANOTUBES TERI WANG ODOM, JASON H. HAFNER AND CHARLES M. LIEBER . 173 1. EXPECTATIONS FROM THEORY . 174 2. SCANNING TUNNELING MICROSCOPY STUDIES OF ELECTRONIC PROPERTIES OF NANOTUBES . 176 2.1. ATOMIC STRUCTURE AND ELECTRONIC PROPERTIES OF SINGLE-WALLED CARBON NANOTUBES . 176 2.1.1. CARBON NANOTUBE ATOMIC STRUCTURE . 177 2.1.2. SPECTROSCOPY: METALS AND SEMICONDUCTORS . 178 XII CONTENTS 2.2. ONE-DIMENSIONAL BAND STRUCTURE OF NANOTUBES . 179 2.3. LOCALIZED STRUCTURES IN NANOTUBES . 182 2.3.1. BENT AND TWISTED NANOTUBES . 182 2.3.2. SWNT ENDS: STRUCTURE AND ELECTRONIC PROPERTIES . 184 2.4. FINITE-SIZE SWNTS . 185 2.4.1. QUANTUM EFFECTS IN CARBON NANOTUBES . 186 2.4.2. COULOMB CHARGING IN SWNTS . 189 2.5. FUTURE DIRECTIONS . 190 3. MANIPULATION OF NANOTUBES WITH SCANNING PROBE MICROSCOPIES . 191 3.1. MANIPULATION OF NANOTUBES ON SURFACES . 191 3.2. NANOTUBE MECHANICAL PROPERTIES . 194 3.3. MAKING NANOTUBE DEVICES . 195 4. NANOTUBE PROBE MICROSCOPY TIPS . 197 4.1. MECHANICAL ASSEMBLY OF NANOTUBE TIPS . 198 4.2. CVD GROWTH OF NANOTUBE TIPS . 199 4.3. RESOLUTION OF NANOTUBE PROBES . 201 4.4. APPLICATIONS IN STRUCTURAL BIOLOGY . 202 4.5. APPLICATIONS IN CHEMICAL FORCE MICROSCOPY AND FORCE SPECTROSCOPY . 204 5. CONCLUSIONS . 206 REFERENCES . 207 OPTICAL PROPERTIES AND RAMAN SPECTROSCOPY OF CARBON NANOTUBES RIICHIRO SAITO AND HIROMICHI KATAURA . 213 1. THEORETICAL ISSUES . 214 1.1. ELECTRONIC STRUCTURE AND DENSITY OF STATES OF SWNTS . 214 1.2. TRIGONAL WARPING EFFECTS IN THE DOS WINDOWS . 220 1.3. PHONON PROPERTIES . 224 2. EXPERIMENT ISSUES . 226 2.1. DIAMETER-SELECTIVE FORMATION OF SWNTS . 226 2.2. SAMPLE PREPARATION AND PURIFICATION . 227 2.3. DIAMETER-DEPENDENT OPTICAL ABSORPTION . 228 2.4. DIAMETER-DEPENDENT RESONANCE RAMAN SCATTERING . 231 2.5. STOKES AND ANTI-STOKES SPECTRA IN RESONANT RAMAN SCATTERING . 234 2.6. BUNDLE EFFECTS ON THE OPTICAL PROPERTIES OF SWNTS (FANO EFFECT) . 236 2.7. RESONANCE RAMAN SCATTERING OF MWNTS . 239 3. SUMMARY . 242 REFERENCES . 244 CONTENTS XIII ELECTRON SPECTROSCOPY STUDIES OF CARBON NANOTUBES JORG H. FINK AND PHILIPPE LAMBIN . 247 1. ELECTRON SPECTROSCOPIES . 248 2. GRAPHITE AND CGO . 251 3. OCCUPIED STATES OF CARBON NANOTUBES . 257 4. UNOCCUPIED STATES OF CARBON NANOTUBES . 261 5. EXCITED STATES ON CARBON NANOTUBES . 261 6. INTERCALATED SINGLE-WALL NANOTUBES . 267 7. SUMMARY . 269 REFERENCES . 270 PHONONS AND THERMAL PROPERTIES OF CARBON NANOTUBES JAMES HONE . 273 1. SPECIFIC HEAT . 273 1.1. SPECIFIC HEAT OF 2-D GRAPHENE AND 3-D GRAPHITE . 273 1.2. SPECIFIC HEAT OF NANOTUBES . 275 1.3. SPECIFIC HEAT OF SWNT ROPES AND MWNTS . 277 1.4. MEASURED SPECIFIC HEAT OF SWNTS AND MWNTS . 278 2. THERMAL CONDUCTIVITY . 281 2.1. THERMAL CONDUCTIVITY OF MWNTS . 282 2.2. THERMAL CONDUCTIVITY OF SWNTS . 283 REFERENCES . 285 MECHANICAL PROPERTIES OF CARBON NANOTUBES BORIS I. YAKOBSON AND PHAEDON AVOURIS . 287 1. MECHANICAL PROPERTIES AND MESOSCOPIC DUALITY OF NANOTUBES . 287 2. MECHANICS OF THE SMALL: COMMON DEFINITIONS . 289 3. EXPERIMENTAL OBSERVATIONS . 291 3.1. MEASUREMENTS OF THE YOUNG ' S MODULUS . 292 3.2. EVIDENCE OF NONLINEAR MECHANICS AND RESILIENCE OF NANOTUBES . 294 3.3. ATTEMPTS OF STRENGTH MEASUREMENTS . 297 4. THEORETICAL AND COMPUTATIONAL MODELS . 299 4.1. THEORETICAL RESULTS ON ELASTIC CONSTANTS OF NANOTUBES . 299 4.2. NONLINEAR ELASTIC DEFORMATIONS AND SHELL MODEL . 302 4.3. ATOMISTICS OF HIGH STRAIN-RATE FAILURE . 308 4.4. YIELD STRENGTH AND RELAXATION MECHANISMS IN NANOTUBES . 310 5. SUPRAMOLECULAR INTERACTIONS . 317 5.1. NANOTUBE-SUBSTRATE AND NANOTUBE-NANOTUBE INTERACTIONS: BINDING AND DISTORTIONS . 317 5.2. MANIPULATION OF THE POSITION AND SHAPE OF CARBON NANOTUBES . 319 5.3. SELF-ORGANIZATION OF CARBON NANOTUBES: NANOTUBE ROPES, RINGS, AND RIBBONS . 320 XIV CONTENTS 6. SUMMARY: NANOMECHANICS AT A GLANCE . 323 REFERENCES . 325 PHYSICAL PROPERTIES OF MULTI-WALL NANOTUBES LASZLO FORRD AND CHRISTIAN SCHONENBERGER . 329 1. PRODUCTION METHODS AND PURIFICATION . 330 2. CRYSTALLOGRAPHIC STRUCTURE . 332 2.1. CRYSTALLOGRAPHIC STRUCTURE AS SEEN BY HRTEM . 332 2.2. FILLING OF CARBON NANOTUBES . 335 3. ELECTRONIC PROPERTIES OF MULTI-WALL CARBON NANOTUBES . 337 3.1. MULTI-WALL NANOTUBES IN RELATION TO GRAPHENE SHEETS . 338 3.2. ELECTRICAL TRANSPORT IN MWNTS: A BRIEF REVIEW . 345 3.3. HALL-EFFECT AND THERMOPOWER IN ASSEMBLED NANOTUBES . 346 3.4. ELECTRICAL TRANSPORT MEASUREMENT TECHNIQUES FOR SINGLE MWNTS . 349 3.5. ELECTRICAL MEASUREMENTS ON SINGLE MWNTS . 351 3.6. MAGNETOTRANSPORT . 355 3.7. SPECTROSCOPY ON CONTACTED MWNTS . 360 3.8. SPECTROSCOPY USING SCANNING TUNNELING PROBES . 363 3.9. DISCUSSION OF THE MAIN ISSUES . 364 4. MAGNETIC PROPERTIES . 365 4.1. SPIN RELAXATION IN QUASI-1-D SYSTEMS . 366 4.2. SPIN RELAXATION IN CARBON NANOTUBES . 367 5. FIELD AND LIGHT EMISSION . 370 5.1. FIELD EMISSION . 371 5.2. LIGHT EMISSION COUPLED TO ELECTRON EMISSION . 373 5.3. LIGHT EMISSION INDUCED BY STM . 375 6. MECHANICAL PROPERTIES . 376 6.1. YOUNG ' S MODULUS OF MWNTS . 378 6.2. DISORDER EFFECT . 379 6.3. COMPARISON WITH SWNTS . 380 6.4. DEFORMATION OF MWNTS . 381 7. SUMMARY . 383 REFERENCES . 384 APPLICATIONS OF CARBON NANOTUBES PULICKEL M. AJAYAN AND OTTO Z. ZHOU . 391 1. POTENTIAL APPLICATION OF CNTS IN VACUUM MICROELECTRONICS . 394 1.1. PROTOTYPE ELECTRON EMISSION DEVICES BASED ON CARBON NANOTUBES . 398 1.1.1. CATHODE-RAY LIGHTING ELEMENTS . 398 1.1.2. FLAT PANEL DISPLAY . 399 1.1.3. GAS-DISCHARGE TUBES IN TELECOM NETWORKS . 399 CONTENTS XV 2. ENERGY STORAGE . 401 2.1. ELECTROCHEMICAL INTERCALATION OF CARBON NANOTUBES WITH LITHIUM . 402 2.2. HYDROGEN STORAGE . 404 3. FILLED COMPOSITES . 406 4. NANOPROBES AND SENSORS . 413 5. TEMPLATES . 415 6. CHALLENGES AND POTENTIAL FOR CARBON NANOTUBE APPLICATIONS . 418 7. CONCLUSIONS . 420 REFERENCES . 421 INDEX . 427
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series	Topics in applied physics
series2	Topics in applied physics
spelling	Carbon nanotubes synthesis, structure, properties, and applications Mildred S. Dresselhaus ... (ed.) Berlin [u.a.] Springer 2001 XV, 447 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Topics in applied physics 80 Carbone Carbone rasuqam Koolstofverbindingen gtt Matériau nanocristallin rasuqam Matériaux nanocristallins Nanostructure rasuqam Nanostructuren gtt Nanotube de carbone rasuqam Tubes Carbon Carbon chemistry Microscopy, Scanning Probe Nanostructured materials Nanotechnology methods Spectrum Analysis, Raman Kohlenstoff-Nanoröhre (DE-588)4581365-6 gnd rswk-swf FÍsica larpcal Kohlenstoff-Nanoröhre (DE-588)4581365-6 s DE-604 Dresselhaus, Mildred S. 1930-2017 Sonstige (DE-588)13388371X oth Topics in applied physics 80 (DE-604)BV008007504 80 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009151905&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Carbon nanotubes synthesis, structure, properties, and applications Topics in applied physics Carbone Carbone rasuqam Koolstofverbindingen gtt Matériau nanocristallin rasuqam Matériaux nanocristallins Nanostructure rasuqam Nanostructuren gtt Nanotube de carbone rasuqam Tubes Carbon Carbon chemistry Microscopy, Scanning Probe Nanostructured materials Nanotechnology methods Spectrum Analysis, Raman Kohlenstoff-Nanoröhre (DE-588)4581365-6 gnd
subject_GND	(DE-588)4581365-6
title	Carbon nanotubes synthesis, structure, properties, and applications
title_auth	Carbon nanotubes synthesis, structure, properties, and applications
title_exact_search	Carbon nanotubes synthesis, structure, properties, and applications
title_full	Carbon nanotubes synthesis, structure, properties, and applications Mildred S. Dresselhaus ... (ed.)
title_fullStr	Carbon nanotubes synthesis, structure, properties, and applications Mildred S. Dresselhaus ... (ed.)
title_full_unstemmed	Carbon nanotubes synthesis, structure, properties, and applications Mildred S. Dresselhaus ... (ed.)
title_short	Carbon nanotubes
title_sort	carbon nanotubes synthesis structure properties and applications
title_sub	synthesis, structure, properties, and applications
topic	Carbone Carbone rasuqam Koolstofverbindingen gtt Matériau nanocristallin rasuqam Matériaux nanocristallins Nanostructure rasuqam Nanostructuren gtt Nanotube de carbone rasuqam Tubes Carbon Carbon chemistry Microscopy, Scanning Probe Nanostructured materials Nanotechnology methods Spectrum Analysis, Raman Kohlenstoff-Nanoröhre (DE-588)4581365-6 gnd
topic_facet	Carbone Koolstofverbindingen Matériau nanocristallin Matériaux nanocristallins Nanostructure Nanostructuren Nanotube de carbone Tubes Carbon Carbon chemistry Microscopy, Scanning Probe Nanostructured materials Nanotechnology methods Spectrum Analysis, Raman Kohlenstoff-Nanoröhre FÍsica
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009151905&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV008007504
work_keys_str_mv	AT dresselhausmildreds carbonnanotubessynthesisstructurepropertiesandapplications

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