Applied physics of carbon nanotubes: fundamentals of theory, optics and transport devices
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer
2005
|
| Schriftenreihe: | Nanoscience and technology
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Literaturangaben |
| Beschreibung: | XXI, 349 S. Ill., graph. Darst. |
| ISBN: | 9783540231103 3540231102 |
Internformat
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| 245 | 1 | 0 | |a Applied physics of carbon nanotubes |b fundamentals of theory, optics and transport devices |c S. V. Rotkin ... (ed.) |
| 264 | 1 | |a Berlin [u.a.] |b Springer |c 2005 | |
| 300 | |a XXI, 349 S. |b Ill., graph. Darst. | ||
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| 490 | 0 | |a Nanoscience and technology | |
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| 650 | 4 | |a Nanotubes | |
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Datensatz im Suchindex
| _version_ | 1804134547415105536 |
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| adam_text | S.V. ROTKIN * S. SUBRAMONEY (EDS.) APPLIED PHYSICS OF CARBON NANOTUBES
FUNDAMENTALS OF THEORY, OPTICS AND TRANSPORT DEVICES WITH 200 FIGURES *
* SPRIN G ER CONTENTS PART I THEORY AND MODELLING 1 FROM QUANTUM MODELS
TO NOVEL EFFECTS TO NEW APPLICATIONS: THEORY OF NANOTUBE DEVICES S. V.
ROTKIN 3 1.1 INTRODUCTION: CLASSICAL VS. QUANTUM MODELLING 3 1.2
CLASSICAL TERMS: WEAK SCREENING IN 1D SYSTEMS 5 1.2.1 DRIFT-DIFFUSION
EQUATION AND QUASI-EQUILIBRIUM CHARGE DENSITY 6 1.2.2 LINEAR
CONDUCTIVITY AND TRANSCONDUCTANCE 7 1.2.3 NUMERICAL RESULTS AND
DISCUSSION 9 1.3 QUANTUM TERMS. I. QUANTUM CAPACITANCE 11 1.3.1
STATISTICAL APPROACH TO CALCULATING SELF-CONSISTENT CHARGE DENSITY IN
SWNT IN VACUUM 13 1.3.2 GREEN S FUNCTION APPROACH FOR GEOMETRIE
CAPACITANCE ... 15 1.3.3 RESULTS AND DISCUSSION 17 1.4 QUANTUM TERMS. IL
SPONTANEOUS SYMMETRY BREAKING 18 1.4.1 SPLITTING OF SWNT SUBBAND DUE TO
INTERACTION WITH THE SUBSTRATE 18 1.4.2 CHARGE INJECTION DUE TO THE
FERMI LEVEL SHIFT 21 1.4.3 DIPOLE POLARIZATION CORRECTION 23 1.5 QUANTUM
TERMS. III. BAND STRUCTURE ENGINEERING 25 1.5.1 BAND GAP OPENING AND
CLOSING IN UNIFORM FIELDS 26 1.6 NOVEL DEVICE CONCEPTS: METALLIC
FIELD-EFFECT TRANSISTOR (METFET) 29 1.6.1 SYMMETRY AND SELECTION RULES
IN ARMCHAIR NANOTUBES ... 30 1.6.2 GAP OPENING AND SWITCHING OFF:
ARMCHAIR SWNT 32 1.6.3 SWITCHING OFF QUASI-METALLIC ZIGZAG NANOTUBE 33
1.6.4 MODULATION OF BALLISTIC CONDUCTANCE 34 1.6.5 RESULTS AND
DISCUSSION 35 REFERENCES 37 XIV CONTENTS 2 SYMMETRY BASED FUNDAMENTALS
OF CARBON NANOTUBES M. DAMNJANOVIC, I. MILOSEVIC, E. DOHARDZIC, T.
VUKOVIC, B. NIKOLIC . . 41 2.1 INTRODUCTION 41 2.2 CONFIGURATION AND
SYMMETRY 42 2.2.1 SINGLE-WALL NANOTUBES 42 2.2.2 DOUBLE-WALL NANOTUBES
45 2.3 SYMMETRY BASED BAND CALCULATIONS 49 2.3.1 MODIFIED WIGNER
PROJECTORS 49 2.3.2 SYMMETRY AND BAND TOPOLOGY 52 2.3.3 QUANTUM NUMBERS
AND SELECTION RULES 53 2.3.4 ELECTRON BANDS 54 2.3.5 FORCE CONSTANTS
PHONON DISPERSIONS 57 2.4 OPTICAL ABSORPTION 60 2.4.1 CONVENTIONAL
NANOTUBES 60 2.4.2 TEMPLATE GROWN NANOTUBES 65 2.5 PHONONS 68 2.5.1
INFINITE SWNTS 68 2.5.2 COMMENSURATE DOUBLE-WALL NANOTUBES 74 2.6
SYMMETRY BREAKS FRICTION: SUPER-SLIPPERY WALLS 80 2.6.1 SYMMETRY AND
INTERACTION 80 2.6.2 NUMERICAL RESULTS 82 REFERENCES 85 3 ELASTIC
CONTINUUM MODELS OF PHONONS IN CARBON NANOTUBES A. RAICHURA, M. DUTTA,
M.A. STROSCIO 89 3.1 INTRODUCTION 89 3.2 ACOUSTIC MODES IN SINGLE WALL
NANOTUBES 90 3.2.1 MODEL 90 3.2.2 DISPERSION CURVES 94 3.2.3 DEFORMATION
POTENTIAL 97 3.3 OPTICAL MODES IN MULTI-WALL NANOTUBES 102 3.3.1 MODEL
102 3.3.2 NORMALIZATION OF LO PHONON MODES 103 3.3.3 OPTICAL DEFORMATION
POTENTIAL 107 3.4 QUANTIZED VIBRATIONAL MODES IN HOLLOW SPHERES 108 3.5
CONCLUSIONS 109 REFERENCES 109 CONTENTS XV PART II SYNTHESIS AND
CHARACTERIZATION 4 DIRECT GROWTH OF SINGLE WALLED CARBON NANOTUBES ON
FIAT SUBSTRATES FOR NANOSCALE ELECTRONIC APPLICATIONS SHAOMING HUANG,
JIE LIU 113 4.1 INTRODUCTION 113 4.2 DIAMETER CONTROL 114 4.3
ORIENTATION CONTROL 118 4.4 GROWTH OF SUPERLONG AND WELL-ALIGNED SWNTS
ON A FIAT SURFACE BY THE FAST-HEATING PROCESS 119 4.5 GROWTH MECHANISM
122 4.6 ADVANTAGES OF LONG AND ORIENTED NANOTUBES FOR DEVICE
APPLICATIONS 129 4.7 SUMMARY 129 REFERENCES 130 5 NANO-PEAPODS
ENCAPSULATING FULLERENES TOSHIYA OKAZAKI, HISANORI SHINOHARA 133 5.1
INTRODUCTION 133 5.2 HIGH-YIELD SYNTHESIS OF NANO-PEAPODS 134 5.3
PACKING ALIGNMENT OF THE FULLERENES INSIDE SWNTS 137 5.4 ELECTRONIC
STRUCTURES OF NANO-PEAPODS 139 5.5 TRANSPORT PROPERTIES OF NANO-PEAPODS
142 5.6 NANO-PEAPOD AS A SAMPLE CELL AT NANOMETER SCALE 144 5.7 PEAPOD
AS A NANO-REACTOR 145 5.8 CONCLUSIONS 148 REFERENCES 148 6 THE
SELECTIVE CHEMISTRY OF SINGLE WALLED CARBON NANOTUBES M.S. STRANO, M.L.
USREY, P. W. BARONE, D.A. HELLER, S. BAIK 151 6.1 INTRODUCTION: ADVANCES
IN CARBON NANOTUBE CHARACTERIZATION . . . 151 6.2 SELECTIVE COVALENT
CHEMISTRY OF SINGLE-WALLED CARBON NANOTUBES 153 6.2.1 MOTIVATION AND
BACKGROUND 153 6.2.2 REVIEW OF CARBON NANOTUBE COVALENT CHEMISTRY 153
6.2.3 THE PYRAMIDALIZATION ANGLE FORMALISM FOR CARBON NANOTUBE
REACTIVITY 154 6.2.4 THE SELECTIVE COVALENT CHEMISTRY OF SINGLE-WALLED
CARBON NANOTUBES 155 6.2.5 SPECTROSCOPIC TOOLS FOR UNDERSTANDING
SELECTIVE COVALENT CHEMISTRY 160 6.3 SELECTIVE NON-COVALENT CHEMISTRY:
CHARGE TRANSFER 164 6.3.1 SINGLE-WALLED NANOTUBES AND CHARGE TRANSFER
164 XVI CONTENTS 6.3.2 SELECTIVE PROTONATION OF SINGLE-WALLED CARBON
NANOTUBES IN SOLUTION 164 6.3.3 SELECTIVE PROTONATION OF SINGLE-WALLED
CARBON NANOTUBES SUSPENDED IN DNA 169 6.4 SELECTIVE NON-COVALENT
CHEMISTRY: SOLVATOCHROMISM 170 6.4.1 INTRODUCTION AND MOTIVATION 170
6.4.2 FLUORESCENCE INTENSITY CHANGES 171 6.4.3 WAVELENGTH SHIFTS 171
6.4.4 CHANGES TO THE RAMAN SPECTRUM 174 REFERENCES 177 PART III OPTICAL
SPECTROSCOPY 7 FLUORESCENCE SPECTROSCOPY OF SINGLE-WALLED CARBON
NANOTUBES R.B. WEISMAN 183 7.1 INTRODUCTION 183 7.2 OBSERVATION OF
PHOTOLUMINESCENCE 185 7.3 DECIPHERING THE (N, M) SPECTRAL ASSIGNMENT 186
7.4 IMPLICATIONS OF THE SPECTRAL ASSIGNMENT 187 7.5 TRANSITION LINE
SHAPES AND SINGLE-NANOTUBE OPTICAL SPECTROSCOPY 192 7.6 INFLUENCE OF
SAMPLE PREPARATION ON OPTICAL SPECTRA 194 7.7 SPECTROFIUORIMETRIC SAMPLE
ANALYSIS 195 7.8 DETECTION, IMAGING, AND ELECTROLUMINESCENCE 198 7.9
CONCLUSIONS 200 REFERENCES 200 8 THE RAMAN RESPONSE OF DOUBLE WALL
CARBON NANOTUBES F. SIMON, R. PFEIFFER, C. KRAMBERGER, M. HOLZWEBER, H.
KUZMANY 203 8.1 INTRODUCTION 203 8.2 EXPERIMENTAL 205 8.3 RESULTS AND
DISCUSSION 206 8.3.1 SYNTHESIS OF DOUBLE-WALL CARBON NANOTUBES 206 8.3.2
ENERGY DISPERSIVE RAMAN STUDIES OF DWCNTS 211 REFERENCES 222 CONTENTS
XVII PART IV TRANSPORT AND ELECTROMECHANICAL APPLICATIONS 9 CARBON
NANOTUBE ELECTRONICS AND OPTOELECTRONICS PH. AVOURIS, M. RADOSAVLJEVIC,
S.J. WIND 227 9.1 INTRODUCTION 227 9.2 ELECTRONIC STRUCTURE AND
ELECTRICAL PROPERTIES OF CARBON NANOTUBES 228 9.3 POTENTIAL AND REALIZED
ADVANTAGES OF CARBON NANOTUBES IN ELECTRONICS APPLICATIONS 230 9.4
FABRICATION AND PERFORMANCE OF CARBON NANOTUBE FIELD-EFFECT TRANSISTORS
231 9.5 CARBON NANOTUBE TRANSISTOR OPERATION IN TERMS OF A SCHOTTKY
BARRIER MODEL 235 9.6 THE ROLE OF NANOTUBE DIAMETER AND GATE OXIDE
THICKNESS 237 9.7 ENVIRONMENTAL INFLUENCES ON THE PERFORMANCE OF
CNT-FETS 239 9.8 SCALING OF CNT-FETS 241 9.9 PROTOTYPE CARBON NANOTUBE
CIRCUITS 242 9.10 OPTOELECTRONIC PROPERTIES OF CARBON NANOTUBES 244 9.11
SUMMARY 248 REFERENCES 249 10 CARBON NANOTUBE*BIOMOLECULE INTERACTIONS:
APPLICATIONS IN CARBON NANOTUBE SEPARATION AND BIOSENSING A. JAGOTA,
B.A. DINER, S. BOUSSAAD, M. ZHENG 253 10.1 INTRODUCTION 253 10.2
DNA-ASSISTED DISPERSION AND SEPARATION OF CARBON NANOTUBES . . 254 10.3
SEPARATION OF CARBON NANOTUBES DISPERSED BY NON-IONIC SURFACTANT 258
10.4 STRUCTURE AND ELECTROSTATICS OF THE DNA/CNT HYBRID MATERIAL. . 262
10.4.1 STRUCTURE OF THE DNA/CNT HYBRID 262 10.4.2 ELECTROSTATICS OF
ELUTION OF THE DNA/CNT HYBRID 264 10.5 EFFECTS OF PROTEIN ADSORPTION ON
THE ELECTRONIC PROPERTIES OF SINGLE WALLED CARBON NANOTUBES 267
REFERENCES 270 11 ELECTRICAL AND MECHANICAL PROPERTIES OF NANOTUBES
DETERMINED USING IN-SITU TEM PROBES ,]. CUMINGS, A. ZETTL 273 11.1
INTRODUCTION 273 11.1.1 CARBON AND BN NANOTUBES 273 11.1.2 TEM
NANOMANIPULATION 277 11.2 STUDIES OF CARBON NANOTUBES 278 11.2.1
ELECTRICALLY-INDUCED MECHANICAL FAILURE OF MULTIWALL CARBON NANOTUBES
278 XVIII CONTENTS 11.2.2 PEELING AND SHARPENING MIILTIWALL CARBON
NANOTUBES .... 281 11.2.3 TELESCOPING NANOTUBES: LINEAR BEARINGS AND
VARIABLE RESISTORS 283 11.3 STUDIES OF BORON NITRIDE NANOTUBES 299 11.4
ELECTRON FIELD EMISSION FROM BN NANOTUBES 300 11.5 ELECTRICAL BREAKDOWN
AND CONDUCTION OF BN NANOTUBES 302 REFERENCES 303 12 NANOMANIPULATOR
MEASUREMENTS OF THE MECHANICS OF NANOSTRUCTURES AND NANOCOMPOSITES F. T.
FISHER, D.A. DIKIN, X. CHEN, R.S. RUOFF 307 12.1 INTRODUCTION 307 12.2
NANOMANIPULATORS 309 12.2.1 INITIAL NANOMANIPULATOR DEVELOPMENT 309
12.2.2 RECENT NANOSCALE TESTING STAGE DEVELOPMENT 311 12.3
NANOMANIPULATOR-BASED MECHANICS MEASUREMENTS 318 12.3.1 TENSILE LOADING
OF NANOSTRUCTURES 318 12.3.2 INDUCED VIBRATIONAL RESONANCE METHODS 328
12.4 SUMMARY AND FUTURE DIRECTIONS 333 REFERENCES 335 COLOR PLATES 339
INDEX 345
|
| adam_txt |
S.V. ROTKIN * S. SUBRAMONEY (EDS.) APPLIED PHYSICS OF CARBON NANOTUBES
FUNDAMENTALS OF THEORY, OPTICS AND TRANSPORT DEVICES WITH 200 FIGURES *
* SPRIN G ER CONTENTS PART I THEORY AND MODELLING 1 FROM QUANTUM MODELS
TO NOVEL EFFECTS TO NEW APPLICATIONS: THEORY OF NANOTUBE DEVICES S. V.
ROTKIN 3 1.1 INTRODUCTION: CLASSICAL VS. QUANTUM MODELLING 3 1.2
CLASSICAL TERMS: WEAK SCREENING IN 1D SYSTEMS 5 1.2.1 DRIFT-DIFFUSION
EQUATION AND QUASI-EQUILIBRIUM CHARGE DENSITY 6 1.2.2 LINEAR
CONDUCTIVITY AND TRANSCONDUCTANCE 7 1.2.3 NUMERICAL RESULTS AND
DISCUSSION 9 1.3 QUANTUM TERMS. I. QUANTUM CAPACITANCE 11 1.3.1
STATISTICAL APPROACH TO CALCULATING SELF-CONSISTENT CHARGE DENSITY IN
SWNT IN VACUUM 13 1.3.2 GREEN'S FUNCTION APPROACH FOR GEOMETRIE
CAPACITANCE . 15 1.3.3 RESULTS AND DISCUSSION 17 1.4 QUANTUM TERMS. IL
SPONTANEOUS SYMMETRY BREAKING 18 1.4.1 SPLITTING OF SWNT SUBBAND DUE TO
INTERACTION WITH THE SUBSTRATE 18 1.4.2 CHARGE INJECTION DUE TO THE
FERMI LEVEL SHIFT 21 1.4.3 DIPOLE POLARIZATION CORRECTION 23 1.5 QUANTUM
TERMS. III. BAND STRUCTURE ENGINEERING 25 1.5.1 BAND GAP OPENING AND
CLOSING IN UNIFORM FIELDS 26 1.6 NOVEL DEVICE CONCEPTS: METALLIC
FIELD-EFFECT TRANSISTOR (METFET) 29 1.6.1 SYMMETRY AND SELECTION RULES
IN ARMCHAIR NANOTUBES . 30 1.6.2 GAP OPENING AND SWITCHING OFF:
ARMCHAIR SWNT 32 1.6.3 SWITCHING OFF QUASI-METALLIC ZIGZAG NANOTUBE 33
1.6.4 MODULATION OF BALLISTIC CONDUCTANCE 34 1.6.5 RESULTS AND
DISCUSSION 35 REFERENCES 37 XIV CONTENTS 2 SYMMETRY BASED FUNDAMENTALS
OF CARBON NANOTUBES M. DAMNJANOVIC, I. MILOSEVIC, E. DOHARDZIC, T.
VUKOVIC, B. NIKOLIC . . 41 2.1 INTRODUCTION 41 2.2 CONFIGURATION AND
SYMMETRY 42 2.2.1 SINGLE-WALL NANOTUBES 42 2.2.2 DOUBLE-WALL NANOTUBES
45 2.3 SYMMETRY BASED BAND CALCULATIONS 49 2.3.1 MODIFIED WIGNER
PROJECTORS 49 2.3.2 SYMMETRY AND BAND TOPOLOGY 52 2.3.3 QUANTUM NUMBERS
AND SELECTION RULES 53 2.3.4 ELECTRON BANDS 54 2.3.5 FORCE CONSTANTS
PHONON DISPERSIONS 57 2.4 OPTICAL ABSORPTION 60 2.4.1 CONVENTIONAL
NANOTUBES 60 2.4.2 TEMPLATE GROWN NANOTUBES 65 2.5 PHONONS 68 2.5.1
INFINITE SWNTS 68 2.5.2 COMMENSURATE DOUBLE-WALL NANOTUBES 74 2.6
SYMMETRY BREAKS FRICTION: SUPER-SLIPPERY WALLS 80 2.6.1 SYMMETRY AND
INTERACTION 80 2.6.2 NUMERICAL RESULTS 82 REFERENCES 85 3 ELASTIC
CONTINUUM MODELS OF PHONONS IN CARBON NANOTUBES A. RAICHURA, M. DUTTA,
M.A. STROSCIO 89 3.1 INTRODUCTION 89 3.2 ACOUSTIC MODES IN SINGLE WALL
NANOTUBES 90 3.2.1 MODEL 90 3.2.2 DISPERSION CURVES 94 3.2.3 DEFORMATION
POTENTIAL 97 3.3 OPTICAL MODES IN MULTI-WALL NANOTUBES 102 3.3.1 MODEL
102 3.3.2 NORMALIZATION OF LO PHONON MODES 103 3.3.3 OPTICAL DEFORMATION
POTENTIAL 107 3.4 QUANTIZED VIBRATIONAL MODES IN HOLLOW SPHERES 108 3.5
CONCLUSIONS 109 REFERENCES 109 CONTENTS XV PART II SYNTHESIS AND
CHARACTERIZATION 4 DIRECT GROWTH OF SINGLE WALLED CARBON NANOTUBES ON
FIAT SUBSTRATES FOR NANOSCALE ELECTRONIC APPLICATIONS SHAOMING HUANG,
JIE LIU 113 4.1 INTRODUCTION 113 4.2 DIAMETER CONTROL 114 4.3
ORIENTATION CONTROL 118 4.4 GROWTH OF SUPERLONG AND WELL-ALIGNED SWNTS
ON A FIAT SURFACE BY THE "FAST-HEATING" PROCESS 119 4.5 GROWTH MECHANISM
122 4.6 ADVANTAGES OF LONG AND ORIENTED NANOTUBES FOR DEVICE
APPLICATIONS 129 4.7 SUMMARY 129 REFERENCES 130 5 NANO-PEAPODS
ENCAPSULATING FULLERENES TOSHIYA OKAZAKI, HISANORI SHINOHARA 133 5.1
INTRODUCTION 133 5.2 HIGH-YIELD SYNTHESIS OF NANO-PEAPODS 134 5.3
PACKING ALIGNMENT OF THE FULLERENES INSIDE SWNTS 137 5.4 ELECTRONIC
STRUCTURES OF NANO-PEAPODS 139 5.5 TRANSPORT PROPERTIES OF NANO-PEAPODS
142 5.6 NANO-PEAPOD AS A SAMPLE CELL AT NANOMETER SCALE 144 5.7 PEAPOD
AS A "NANO-REACTOR" 145 5.8 CONCLUSIONS 148 REFERENCES 148 6 THE
SELECTIVE CHEMISTRY OF SINGLE WALLED CARBON NANOTUBES M.S. STRANO, M.L.
USREY, P. W. BARONE, D.A. HELLER, S. BAIK 151 6.1 INTRODUCTION: ADVANCES
IN CARBON NANOTUBE CHARACTERIZATION . . . 151 6.2 SELECTIVE COVALENT
CHEMISTRY OF SINGLE-WALLED CARBON NANOTUBES 153 6.2.1 MOTIVATION AND
BACKGROUND 153 6.2.2 REVIEW OF CARBON NANOTUBE COVALENT CHEMISTRY 153
6.2.3 THE PYRAMIDALIZATION ANGLE FORMALISM FOR CARBON NANOTUBE
REACTIVITY 154 6.2.4 THE SELECTIVE COVALENT CHEMISTRY OF SINGLE-WALLED
CARBON NANOTUBES 155 6.2.5 SPECTROSCOPIC TOOLS FOR UNDERSTANDING
SELECTIVE COVALENT CHEMISTRY 160 6.3 SELECTIVE NON-COVALENT CHEMISTRY:
CHARGE TRANSFER 164 6.3.1 SINGLE-WALLED NANOTUBES AND CHARGE TRANSFER
164 XVI CONTENTS 6.3.2 SELECTIVE PROTONATION OF SINGLE-WALLED CARBON
NANOTUBES IN SOLUTION 164 6.3.3 SELECTIVE PROTONATION OF SINGLE-WALLED
CARBON NANOTUBES SUSPENDED IN DNA 169 6.4 SELECTIVE NON-COVALENT
CHEMISTRY: SOLVATOCHROMISM 170 6.4.1 INTRODUCTION AND MOTIVATION 170
6.4.2 FLUORESCENCE INTENSITY CHANGES 171 6.4.3 WAVELENGTH SHIFTS 171
6.4.4 CHANGES TO THE RAMAN SPECTRUM 174 REFERENCES 177 PART III OPTICAL
SPECTROSCOPY 7 FLUORESCENCE SPECTROSCOPY OF SINGLE-WALLED CARBON
NANOTUBES R.B. WEISMAN 183 7.1 INTRODUCTION 183 7.2 OBSERVATION OF
PHOTOLUMINESCENCE 185 7.3 DECIPHERING THE (N, M) SPECTRAL ASSIGNMENT 186
7.4 IMPLICATIONS OF THE SPECTRAL ASSIGNMENT 187 7.5 TRANSITION LINE
SHAPES AND SINGLE-NANOTUBE OPTICAL SPECTROSCOPY 192 7.6 INFLUENCE OF
SAMPLE PREPARATION ON OPTICAL SPECTRA 194 7.7 SPECTROFIUORIMETRIC SAMPLE
ANALYSIS 195 7.8 DETECTION, IMAGING, AND ELECTROLUMINESCENCE 198 7.9
CONCLUSIONS 200 REFERENCES 200 8 THE RAMAN RESPONSE OF DOUBLE WALL
CARBON NANOTUBES F. SIMON, R. PFEIFFER, C. KRAMBERGER, M. HOLZWEBER, H.
KUZMANY 203 8.1 INTRODUCTION 203 8.2 EXPERIMENTAL 205 8.3 RESULTS AND
DISCUSSION 206 8.3.1 SYNTHESIS OF DOUBLE-WALL CARBON NANOTUBES 206 8.3.2
ENERGY DISPERSIVE RAMAN STUDIES OF DWCNTS 211 REFERENCES 222 CONTENTS
XVII PART IV TRANSPORT AND ELECTROMECHANICAL APPLICATIONS 9 CARBON
NANOTUBE ELECTRONICS AND OPTOELECTRONICS PH. AVOURIS, M. RADOSAVLJEVIC,
S.J. WIND 227 9.1 INTRODUCTION 227 9.2 ELECTRONIC STRUCTURE AND
ELECTRICAL PROPERTIES OF CARBON NANOTUBES 228 9.3 POTENTIAL AND REALIZED
ADVANTAGES OF CARBON NANOTUBES IN ELECTRONICS APPLICATIONS 230 9.4
FABRICATION AND PERFORMANCE OF CARBON NANOTUBE FIELD-EFFECT TRANSISTORS
231 9.5 CARBON NANOTUBE TRANSISTOR OPERATION IN TERMS OF A SCHOTTKY
BARRIER MODEL 235 9.6 THE ROLE OF NANOTUBE DIAMETER AND GATE OXIDE
THICKNESS 237 9.7 ENVIRONMENTAL INFLUENCES ON THE PERFORMANCE OF
CNT-FETS 239 9.8 SCALING OF CNT-FETS 241 9.9 PROTOTYPE CARBON NANOTUBE
CIRCUITS 242 9.10 OPTOELECTRONIC PROPERTIES OF CARBON NANOTUBES 244 9.11
SUMMARY 248 REFERENCES 249 10 CARBON NANOTUBE*BIOMOLECULE INTERACTIONS:
APPLICATIONS IN CARBON NANOTUBE SEPARATION AND BIOSENSING A. JAGOTA,
B.A. DINER, S. BOUSSAAD, M. ZHENG 253 10.1 INTRODUCTION 253 10.2
DNA-ASSISTED DISPERSION AND SEPARATION OF CARBON NANOTUBES . . 254 10.3
SEPARATION OF CARBON NANOTUBES DISPERSED BY NON-IONIC SURFACTANT 258
10.4 STRUCTURE AND ELECTROSTATICS OF THE DNA/CNT HYBRID MATERIAL. . 262
10.4.1 STRUCTURE OF THE DNA/CNT HYBRID 262 10.4.2 ELECTROSTATICS OF
ELUTION OF THE DNA/CNT HYBRID 264 10.5 EFFECTS OF PROTEIN ADSORPTION ON
THE ELECTRONIC PROPERTIES OF SINGLE WALLED CARBON NANOTUBES 267
REFERENCES 270 11 ELECTRICAL AND MECHANICAL PROPERTIES OF NANOTUBES
DETERMINED USING IN-SITU TEM PROBES ,]. CUMINGS, A. ZETTL 273 11.1
INTRODUCTION 273 11.1.1 CARBON AND BN NANOTUBES 273 11.1.2 TEM
NANOMANIPULATION 277 11.2 STUDIES OF CARBON NANOTUBES 278 11.2.1
ELECTRICALLY-INDUCED MECHANICAL FAILURE OF MULTIWALL CARBON NANOTUBES
278 XVIII CONTENTS 11.2.2 PEELING AND SHARPENING MIILTIWALL CARBON
NANOTUBES . 281 11.2.3 TELESCOPING NANOTUBES: LINEAR BEARINGS AND
VARIABLE RESISTORS 283 11.3 STUDIES OF BORON NITRIDE NANOTUBES 299 11.4
ELECTRON FIELD EMISSION FROM BN NANOTUBES 300 11.5 ELECTRICAL BREAKDOWN
AND CONDUCTION OF BN NANOTUBES 302 REFERENCES 303 12 NANOMANIPULATOR
MEASUREMENTS OF THE MECHANICS OF NANOSTRUCTURES AND NANOCOMPOSITES F. T.
FISHER, D.A. DIKIN, X. CHEN, R.S. RUOFF 307 12.1 INTRODUCTION 307 12.2
NANOMANIPULATORS 309 12.2.1 INITIAL NANOMANIPULATOR DEVELOPMENT 309
12.2.2 RECENT NANOSCALE TESTING STAGE DEVELOPMENT 311 12.3
NANOMANIPULATOR-BASED MECHANICS MEASUREMENTS 318 12.3.1 TENSILE LOADING
OF NANOSTRUCTURES 318 12.3.2 INDUCED VIBRATIONAL RESONANCE METHODS 328
12.4 SUMMARY AND FUTURE DIRECTIONS 333 REFERENCES 335 COLOR PLATES 339
INDEX 345 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| building | Verbundindex |
| bvnumber | BV020840225 |
| callnumber-first | T - Technology |
| callnumber-label | TA418 |
| callnumber-raw | TA418.9.N35 |
| callnumber-search | TA418.9.N35 |
| callnumber-sort | TA 3418.9 N35 |
| callnumber-subject | TA - General and Civil Engineering |
| classification_rvk | UQ 8230 UQ 8300 VK 7150 |
| ctrlnum | (OCoLC)60800643 (DE-599)BVBBV020840225 |
| dewey-full | 620/.5 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 620 - Engineering and allied operations |
| dewey-raw | 620/.5 |
| dewey-search | 620/.5 |
| dewey-sort | 3620 15 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Chemie / Pharmazie Maschinenbau / Maschinenwesen Physik |
| discipline_str_mv | Chemie / Pharmazie Maschinenbau / Maschinenwesen Physik |
| format | Book |
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| id | DE-604.BV020840225 |
| illustrated | Illustrated |
| index_date | 2024-07-02T13:16:15Z |
| indexdate | 2024-07-09T20:26:21Z |
| institution | BVB |
| isbn | 9783540231103 3540231102 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-014162118 |
| oclc_num | 60800643 |
| open_access_boolean | |
| owner | DE-703 DE-29T DE-83 DE-11 |
| owner_facet | DE-703 DE-29T DE-83 DE-11 |
| physical | XXI, 349 S. Ill., graph. Darst. |
| publishDate | 2005 |
| publishDateSearch | 2005 |
| publishDateSort | 2005 |
| publisher | Springer |
| record_format | marc |
| series2 | Nanoscience and technology |
| spelling | Applied physics of carbon nanotubes fundamentals of theory, optics and transport devices S. V. Rotkin ... (ed.) Berlin [u.a.] Springer 2005 XXI, 349 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Nanoscience and technology Literaturangaben Carbon Nanotubes Kohlenstoff-Nanoröhre (DE-588)4581365-6 gnd rswk-swf Physik (DE-588)4045956-1 gnd rswk-swf Kohlenstoff-Nanoröhre (DE-588)4581365-6 s Physik (DE-588)4045956-1 s DE-604 Rotkin, Slava V. Sonstige oth GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014162118&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Applied physics of carbon nanotubes fundamentals of theory, optics and transport devices Carbon Nanotubes Kohlenstoff-Nanoröhre (DE-588)4581365-6 gnd Physik (DE-588)4045956-1 gnd |
| subject_GND | (DE-588)4581365-6 (DE-588)4045956-1 |
| title | Applied physics of carbon nanotubes fundamentals of theory, optics and transport devices |
| title_auth | Applied physics of carbon nanotubes fundamentals of theory, optics and transport devices |
| title_exact_search | Applied physics of carbon nanotubes fundamentals of theory, optics and transport devices |
| title_exact_search_txtP | Applied physics of carbon nanotubes fundamentals of theory, optics and transport devices |
| title_full | Applied physics of carbon nanotubes fundamentals of theory, optics and transport devices S. V. Rotkin ... (ed.) |
| title_fullStr | Applied physics of carbon nanotubes fundamentals of theory, optics and transport devices S. V. Rotkin ... (ed.) |
| title_full_unstemmed | Applied physics of carbon nanotubes fundamentals of theory, optics and transport devices S. V. Rotkin ... (ed.) |
| title_short | Applied physics of carbon nanotubes |
| title_sort | applied physics of carbon nanotubes fundamentals of theory optics and transport devices |
| title_sub | fundamentals of theory, optics and transport devices |
| topic | Carbon Nanotubes Kohlenstoff-Nanoröhre (DE-588)4581365-6 gnd Physik (DE-588)4045956-1 gnd |
| topic_facet | Carbon Nanotubes Kohlenstoff-Nanoröhre Physik |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014162118&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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