Carbon nanotube and related field emitters: fundamentals and applications
Gespeichert in:
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Weinheim
Wiley-VCH
2010
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| Online-Zugang: | Inhaltsverzeichnis Klappentext |
| Beschreibung: | XXIV, 479 S. Ill., graph. Darst. |
| ISBN: | 9783527327348 |
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| 245 | 1 | 0 | |a Carbon nanotube and related field emitters |b fundamentals and applications |c ed. by Yahachi Saito |
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Datensatz im Suchindex
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| adam_text | CONTENTS PREFACE XV U LIST OF CONTRIBUTORS XIX PART I PREPARATION AND
CHARACTERIZATION OF CARBON NANOTUBES 2 1 STRUCTURES AND SYNTHESIS OF
CARBON NANOTUBES 3 YAHACHI SAITO 1.1 STRUCTURES OF CARBON NANOTUBES 3
1.1.1 SINGLE-WALL CNTS 3 1.1.2 MULTIWALL CNTS 6 1.1.3 THIN-WALLED CNTS 7
1.2 SYNTHESIS OF CARBON NANOTUBES 7 1.2.1 ARC DISCHARGE 7 1.2.2 CHEMICAL
VAPOR DEPOSITION 8 1.2.2.1 THERMAL CVD 9 1.2.2.2 PLASMA-ENHANCED CVD 9
1.3 ELECTRICAL AND MECHANICAL PROPERTIES OF CARBON NANOTUBES 10 1.3.1
ELECTRONIC STRUCTURE JO 1.3.2 ELECTRIC PROPERTIES 11 1.3.3 MECHANICAL
PROPERTIES 12 1.3.4 HEAT-TRANSPORT PROPERTIES J3 REFERENCES 13 2
PREPARATION OF CNT EMITTERS 25 YAHACHI SAITO 2.1 INTRODUCTION 15 2.2 CNT
POINT EMITTERS 15 2.2.1 MANUAL ATTACHMENT OF A CNT BUNDLE 25 2.2.2
MOUNTING INSIDE AN SEM 16 2.2.3 ELECTROPHORIC AND MAGNETOPHORETIC
METHODS 26 2.2.4 DIRECT GROWTH ON THE APEX OF A TIP 28 2.2.5 OTHER
METHODS 29 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/1000250024
DIGITALISIERT DURCH VI I CONTENTS 2.3 CNT FILM EMITTERS 19 2.3.1 SPRAY
COATING 19 2.3.2 SCREEN PRINTING 29 2.3.3 ELECTROPHORESIS 20 2.3.4 CVD
METHOD 20 REFERENCES 21 3 PREPARATION OF PATTERNED CNT EMITTERS 23 MARK
MANN, WILLIAM IRELAND MILNE, AND KENNETH BOH KHIN TEO 3.1 BACKGROUND 23
3.2 GROWTH OF CARBON NANOTUBES FROM PATTERNED CATALYSTS 25 3.2.1
PATTERNED GROWTH FROM CATALYST FILM EDGES 25 3.2.2 PATTERNED GROWTH FROM
CATALYST THIN FILMS ON A DIFFUSION BARRIER 27 3.3 SINGLE NANOTUBE GROWTH
- REQUIREMENTS AND UNIFORMITY 28 3.4 NANOTUBE GROWTH WITHOUT SURFACE
CARBON 32 3.4.1 ANALYSIS OF SUBSTRATE SURFACES EXPOSED TO THE PLASMA 32
3.4.2 ANALYSIS OF SUBSTRATE SURFACES SHIELDED FROM THE PLASMA 37 3.5
SUMMARY 38 ACKNOWLEDGMENTS 40 REFERENCES 40 PARTII FIELD EMISSION FROM
CARBON NANOTUBES 41 4 FIELD EMISSION THEORY 43 SEUNGIVU HAN 4.1
FOWLER-NORDHEIM THEORY 43 CONTENTS VII 5.3.3 GRAPHENE SHEET: DEFECTS 62
5.3.4 DIAMOND SURFACES: IMPURITIES 62 5.4 CONCLUSION 64 ACKNOWLEDGMENTS
64 REFERENCES 65 6 THE OPTICAL PERFORMANCE OF CARBON NANOTUBE FIELD
EMITTERS 67 NIELS DEJONGE 6.1 INTRODUCTION 67 6.2 MAKING AN ELECTRON
SOURCE FROM AN INDIVIDUAL CARBON NANOTUBE 68 6.3 THE EMISSION PROCESS 69
6.3.1 THE FOWLER-NORDHEIM MODEL 69 6.3.2 MEASUREMENT OF THE
FOWLER-NORDHEIM PLOT 70 6.3.3 THE ENERGY SPREAD 72 6.3.4 MEASUREMENT OF
ENERGY SPECTRA 72 6.3.5 COMPARING THE MEASURED TUNNELING PARAMETER WITH
THEORY 74 6.3.6 DETERMINING THE WORK FUNCTION 74 6.4 THE BRIGHTNESS 74
6.4.1 MEASURING THE BRIGHTNESS 74 6.4.2 NEW MODEL FOR THE BRIGHTNESS 75
6.4.3 DISCUSSION OF THE NEW MODEL 76 6.4.4 THE TOTAL FIGURE OF MERIT FOR
CARBON NANOTUBE ELECTRON SOURCES 77 6.5 CONCLUSIONS 78 ACKNOWLEDGMENTS
78 REFERENCES 78 7 VILI CONTENTS 8.3.1.1 HYDROGEN 99 8.3.1.2 NITROGEN 99
8.3.1.3 OXYGEN 201 8.3.1.4 CARBON MONOXIDE 101 8.3.1.5 CARBON DIOXIDE
102 8.3.1.6 METHANE 102 8.3.1.7 COMPARISON WITH RELATED THEORETICAL
STUDIES 103 8.3.2 ALUMINUM CLUSTERS 103 8.4 RESOLUTION IN FEM AND
POSSIBLE OBSERVATION OF ATOMIC DETAIL 205 8.5 CONCLUDING REMARKS 206
REFERENCES 207 9 IN SITU TRANSMISSION ELECTRON MICROSCOPY OF CNT
EMITTERS 209 KOJI ASAKA AND YAHACHI SAITO 9.1 INTRODUCTION 209 9.2
DEGRADATION AND FAILURE OF NANOTUBES AT LARGE EMISSION CURRENT
CONDITIONS 210 9.3 EFFECT OF TIP STRUCTURE OF NANOTUBES ON FIELD
EMISSION 122 9.4 RELATIONSHIP BETWEEN FIELD EMISSION AND GAP WIDTH 223
9.5 OTHER STUDIES BY IN SITU TEM OF CNT EMITTERS 214 REFERENCES 126 10
FIELD EMISSION FROM SINGLE-WALL NANOTUBES 119 KENNETH A. DEAN 10.1
INTRODUCTION 219 10.2 SINGLE-WALL NANOTUBES AND FIELD EMISSION 119 10.3
MEASURING THE PROPERTIES OF A SINGLE SWNT 120 10.4 FIELD EMISSION FROM A
CLEAN SWNT SURFACE 121 10.4. CONTENTS IX 11 SIMULATED ELECTRIC FIELD IN
AN ARRAY OF CNTS 243 HIDEKAZU MURATA AND HIROSHI SHIMOYAMA 11.1
INTRODUCTION 143 11.2 SIMULATION METHOD 243 11.3 COMPUTATIONAL MODEL 245
11.4 FIELD ANALYSIS FOR THE VA-CNT SYSTEM 148 11.4.1 DEPENDENCE OF
NUMERICAL ACCURACY IN ELECTRIC FIELD CALCULATION ON THE DISCRETIZATION
NUMBER 248 11.4.2 APPROPRIATENESS OF 9 X 9 CNT COMPUTATIONAL MODEL 149
11.5 FIELD ANALYSIS FOR VA-CNT SYSTEM WITH UNIFORM LENGTH 150 11.5.1
DEPENDENCE OF THE ELECTRIC FIELD STRENGTH AT THE CNT APEX ON GEOMETRICAL
PARAMETERS OF THE CNTS 252 11.5.2 UNIVERSAL CURVE 153 11.6 FIELD
ANALYSIS FOR VA-CNT SYSTEM WITH NONUNIFORM LENGTH 154 11.7 EFFECT OF
SHAPE OF CNT APEX 257 11.8 EFFECT OF CNT LENGTH 158 11.9 ELECTRIC FIELD
ANALYSIS OF NETWORK-STRUCTURED CNT SYSTEM 160 REFERENCES 262 12 SURFACE
COATING OF CNT EMITTERS 2 63 YOSHIKAZU NAKAYAMA 12.1 EFFECTS OF SURFACE
COATING OF CNT EMITTERS 164 12.1.1 PARAMETERS DETERMINING FIELD EMISSION
PROPERTIES 264 12.1.2 LOWERING OF THE POTENTIAL BARRIER 265 12.1.2.1
COATING LAYER WITH LOW WORK FUNCTION 165 12.1.2.2 COATING LAYER WITH
WIDE BAND GAP 265 12.1. X CONTENTS 13.6 SUMMARY I 92 REFERENCES 292 14
FIELD EMISSION FROM CARBON NANOWALLS 193 MASARA HORI AND MINEO HIRAMATSU
14.1 GENERAL DESCRIPTION OF CARBON NANOWALLS 193 14.2 SYNTHESIS OF
CARBON NANOWALL FILMS 294 14.2.1 SYNTHESIS TECHNIQUES 294 14.2.2
CHARACTERIZATION 195 14.2.3 MORPHOLOGY OF CARBON NANOWALL FILM 197 14.3
FIELD EMISSION PROPERTIES OF CARBON NANOWALLS 199 14.4 SURFACE TREATMENT
FOR IMPROVEMENT OF FIELD EMISSION PROPERTIES 200 14.4.1 METAL
NANOPARTIDE DEPOSITION 200 14.4.2 N 2 PLASMA TREATMENT 202 14.5
PROSPECTS FOR THE FUTURE 203 REFERENCES 203 15 FLEXIBLE FIELD EMITTERS:
CARBON NANOFIBERS 205 MASAKI TANEMURA AND SHU-PING LAU 15.1 INTRODUCTION
205 15.2 ROOM TEMPERATURE FABRICATION OF ION-INDUCED CARBON NANOFIBERS
205 15.3 APPLICATIONS TO FIELD ELECTRON EMISSION SOURCES 208 15.3.1
CURRENT-VOLTAGE ( I- V) CHARACTERISTICS 208 15.3.2 LIFETIME 209 15.3.3
FLEXIBLE CNF CATHODE 212 15.4 SUMMARY 225 REFERENCES 225 16 DIAMOND
EMITTERS 229 SHOZO CONTENTS XI 17.2 SYNTHESIS OF ZNO AND SI NANOWIRES OR
NANOBELTS 231 17.2.1 VAPOR-LIQUID-SOLID NANOWIRE GROWTH 232 17.2.2
CONTROLLED GROWTH OF SI NANOWIRES AND ZNO NANOWIRES 236 17.2.2.1
DIAMETER CONTROL 236 17.2.2.2 ORIENTATION CONTROL 237 17.2.2.3
POSITIONAL CONTROL 238 17.2.3 HYDROTHERMAL-BASED CHEMICAL APPROACH 240
17.3 FIELD EMISSION OF SI AND ZNO NANOWIRES 241 17.3.1 ZNO NANOWIRES 244
17.3.2 SI NANOWIRES 248 17.4 SUMMARY 253 ACKNOWLEDGMENT 253 REFERENCES
253 PART IV APPLICATIONS OF CARBON NANOTUBES 259 18 LAMP DEVICES AND
CHARACTER DISPLAYS 261 SASHIRO UEMURA 18.1 INTRODUCTION 262 18.2 LAMP
DEVICES FOR LIGHT SOURCES 261 18.2.1 STRUCTURE OF THE LIGHTING ELEMENT
261 18.2.2 CARBON NANOTUBE EMITTER FOR THE LIGHTING ELEMENT 263 18.2.3
PERFORMANCE OF THE LIGHTING ELEMENTS 265 18.3 SUPER-HIGH-LUMINANCE LIGHT
SOURCE DEVICE 266 18.3.1 DEVICE STRUCTURE OF THE SUPER-HIGH-LUMINANCE
LIGHT SOURCE DEVIC XII CONTENTS 19.2 FORMULATION OF PHOTOIMAGEABLE CNT
PASTE 292 19.3 POSTTREATMENT 295 19.4 FIELD EMISSION DISPLAY BASED ON
PRINTED CNTS 300 19.4.1 CATHODE 300 19.4.2 ANODE: PHOSPHORS AND PHOSPHOR
PLATE 305 19.5 CONCLUSION 306 REFERENCES 307 20 NANOTUBE FIELD EMISSION
DISPLAYS: NANOTUBE INTEGRATION BY DIRECT GROWTH TECHNIQUES 311 KENNETH
A. DEAN 20.1 INTRODUCTION 311 20.2 FIELD EMISSION DISPLAY DESIGN AND
DRIVE VOLTAGE 312 20.3 FABRICATING THE DISPLAY 326 20.3.1 BUILDING THE
STRUCTURE 316 20.3.2 GROWTH OF CARBON NANOTUBES ON GLASS 316 20.4
LUMINANCE UNIFORMITY AND CONTROL AND NANOTUBE DISTRIBUTIONS 321 20.5
DISPLAY PERFORMANCE 323 20.5.1 LUMINANCE 323 20.5.2 COLOR PURITY 325
20.6 SEALING 327 20.7 OPERATING LIFETIME 328 20.8 CONCLUSIONS 329
REFERENCES 330 21 TRANSPARENT-LIKE CNT-FED 333 TAKESHI TONEGAWA,
MASATERU TANIGUCHI, AND SHIGEO ITOH 21. CONTENTS XIII ACKNOWLEDGMENTS
368 REFERENCES 368 23 HIGH-CURRENT-DENSITY FIELD EMISSION ELECTRON
SOURCE 373 SHIGEKI KATO AND TSUNEYUKI NOGUCHI 23.1 INTRODUCTION 373 23.2
GUIDING PRINCIPLES AND PRACTICAL METHODS FOR HIGH-PERFORMANCE EMITTER
374 23.2.1 ELICITATION OF INHERENT EMISSION PROPERTIES OF INDIVIDUAL
CNTS 375 23.2.2 INCREASE IN FIELD ENHANCEMENT FACTOR AT THE CNT SURFACE
375 23.2.3 OPTIMIZATION OF ELECTRIC FIELD DISTRIBUTION ON FILM EMITTER
SURFACE 376 23.2.4 REDUCTION OF WORK FUNCTION OF EMITTER 376 23.2.5
IMPROVEMENT OF THERMAL CONDUCTION AND MITIGATION OF JOULE HEATING AT CNT
JUNCTION 377 23.2.6 RESTRAINT OF CNT DISAPPEARANCE 377 23.2.7 MITIGATION
OF ION SPUTTERING AND REACTIVE ETCHING OF EMITTER SURFACE 378 23.3
IMPREGNATION OF RUO2 AND OSO2 379 23.3.1 PROPERTIES OF RUO 2 AND OSO 2
379 23.3.2 THE METHOD OF RUO 2 IMPREGNATION 379 23.3.3 OBSERVATION OF
CNTS WITH IMPREGNATION OF RUO 2 379 23.4 CNT ROOTING 380 XIV I CONTENTS
25 MINIATURE X-RAY TUBES 402 FUMIO OKUYAMA 25.1 INTRODUCTION 402 25.2
OUR TECHNICAL BASIS FOR MINIATURIZING X-RAY TUBES 402 25.3 THE PD
EMITTER 404 25.4 DEVISING X-RAY TUBES WITH MINIATURE DIMENSIONS 405
25.4.1 THE 10-MM-DIAMETER TUBE 405 25.4.2 THE 5-MM-DIAMETER TUBE 409
25.5 STATUS QUO OF OUR MXT TECHNIQUE 413 25.5.1 DSB 423 25.5.2 APOPTOSIS
425 25.6 FUTURE PROSPECT OF MXTS IN RADIATION THERAPY 416 REFERENCES 426
26 CARBON NANOTUBE-BASED FIELD EMISSION X-RAY TECHNOLOGY 417 OTTO ZHOU
AND XIOMARA CALDERON-COLON 26.1 INTRODUCTION 417 26.1.1 CURRENT
THERMIONIC X-RAY TECHNOLOGY 417 26.1.2 PREVIOUS STUDIES OF FIELD
EMISSION X-RAY 418 26.1.3 CARBON NANOTUBE-BASED FIELD EMISSION X-RAY 418
26.2 FABRICATION OF CNT CATHODES FOR X-RAY GENERATION 420 26.2.1
FABRICATION PROCESS 420 26.2.2 FIELD EMISSION PROPERTIES 424 26.3 FIELD
EMISSION MICROFOCUS X-RAY TUBE 425 26.3.1 TUBE DESIGN 425 26.3.2 TUBE
CURRENT AND LIFETIME 426 26.3. CONTENTS XV 27.2.3 METHODOLOGY OF
REVIEWING CNT CATHODES 443 27.3 CNT-BASED ELECTRON GUNS AS HIGH CURRENT
ELECTRON SOURCES 444 27.3.1 CURRENT DENSITY AT CATHODE LEVEL 444
27.3.1.1 CURRENTS EMITTED BY INDIVIDUAL CNTS 444 27.3.1.2 CURRENT
DENSITY EMITTED BY CNT CATHODES 444 27.3.2 CONVERGENCE FACTORS OBTAINED
WITH CNT-BASED ELECTRON GUN 446 27.3.2.1 SIMULATION OF A CNT-BASED
ELECTRON GUN 446 27 .3.2.2 DESIGN OF CATHODES DELIVERING LOW TRANSVERSE
ELECTRON VELOCITIES 448 27.3.3 POTENTIAL OF CNT ELECTRON GUNS AS HIGH
CURRENT ELECTRON SOURCES 450 27.4 CNT CATHODES DELIVERING A MODULATED
ELECTRON BEAM 450 27 A.I MODULATION OF THE APPLIED ELECTRIC FIELD 450
27.4.1.1 MODULATION OF THE APPLIED ELECTRIC FIELD WITH AN INTEGRATED
GRID 450 27.4.1.2 MODULATION OF THE APPLIED ELECTRIC FIELD WITH AN
EXTERNAL GRID ELECTRODE 452 27.4.1.3 MODULATION OF THE APPLIED ELECTRIC
FIELD WITH A RESONANT CAVITY 452 27 A.I A CONCLUSION ABOUT THE APPROACH
CONSISTING IN MODULATING THE APPLIED FIELD 456 27.4.2 OPTICAL MODULATION
OF THE CURRENT SUPPLIED TO THE CNTS 457 27.4.2.1 DESIGN OF A CNT
PHOTOCATHODE 457 27.4.2.2 DEMONSTRATION OF A 300 MHZ CNT PHOTOCATHODE
462 27.4.2.3 DEVELOPMENT OF HIGH-FREQUENCY CNT PHOTOCATHODES FOR
MICROWAVE AMPLIFIER
ч.агЬоп
nanotubes (CNTs) have novel properties that make them po¬
tentially useful in many applications in nanotechnology, electronics,
optics and other fields of materials science. These characteristics in¬
clude extraordinary strength, unique electrical properties, and the fact
that they are efficient heat conductors. Field emission is the emission
of electrons from the surface of a condensed phase into another phase
due to the presence of high electric fields. CNT field emitters are
expected to make a breakthrough in the development of field emission
display technology and enable miniature X-ray sources that will find a
wide variety of applications in electronic devices, industry, and medical
and security examinations.
This first monograph on the topic covers all aspects in a concise
yet comprehensive manner from the fundamentals to applications.
Divided into four sections, the first part discusses the preparation and
characterization of carbon nanotubes, while part two is devoted to the
field emission properties of carbon nanotubes, including the electron
emission mechanism, characteristics of CNT electron sources, and
dynamic behavior of CNTs during operation. Part three highlights
field emission from other nanomaterials, such as carbon nanowalls,
diamond, and silicon and zinc oxide nanowires, before concluding with
frontier R&D applications of CNT emitters, from vacuum electronic
devices such as field emission displays, to electron sources in electron
microscopes, X-ray sources, and microwave amplifiers. Edited by a
pioneer in the field, each chapter is written by recognized experts in
the respective fields.
Yahachi
Saito
is a Professor in the Quantum Engineering Department of Nagoya Univer¬
sity. He received his doctorate in Engineeringfrom Nagoya University in
1980
and has held
professorial positions at Toyohashi University of Technology
(1981-7985)
and
Mie
University
(1990-2004)
in addition to Nagoya University
(1985-1990,
2004-present). He has also spent
time as a visiting scientist at
АТеСГ
Bell Laboratories.
Saito s area of expertise encompasses the synthesis, characterization and application of
nanometer scale materials, especially inorganic atomic clusters and fine particles,
fullerenes,
and carbon nanotubes (CNTs). He has studied CNT field emitters since
1996,
collaborating
with Noritake Itron Corp since
1997
for the development of display devices using CNTs as
a cold cathode. They demonstrated the world s first CNT-based display device at the SID
International Conference in
1998.
Saito
is the recipient of numerous awards, including the
Yazaki Arts and Science Award
(2004),
the Prize for Science and Technology of the Ministry
of Education, Culture, Sports Science and Technology
(2006),
and the
2007
SID Int. Symp.
Distinguished Paper Award.
ISBN
978-3-527-32734-8
www.wiley-vch.de
9 7
β
з
5 2 7
|
| any_adam_object | 1 |
| author2 | Saitō, Yahachi 1953- |
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| building | Verbundindex |
| bvnumber | BV036119204 |
| classification_rvk | VE 9850 VK 7150 |
| ctrlnum | (OCoLC)526098175 (DE-599)DNB1000250024 |
| 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 | 3620.5 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Chemie / Pharmazie |
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| id | DE-604.BV036119204 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T22:12:29Z |
| institution | BVB |
| isbn | 9783527327348 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-019009226 |
| oclc_num | 526098175 |
| open_access_boolean | |
| owner | DE-29T DE-92 DE-634 DE-83 DE-703 |
| owner_facet | DE-29T DE-92 DE-634 DE-83 DE-703 |
| physical | XXIV, 479 S. Ill., graph. Darst. |
| publishDate | 2010 |
| publishDateSearch | 2010 |
| publishDateSort | 2010 |
| publisher | Wiley-VCH |
| record_format | marc |
| spelling | Carbon nanotube and related field emitters fundamentals and applications ed. by Yahachi Saito Weinheim Wiley-VCH 2010 XXIV, 479 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Carbon Nanotubes Feldemission (DE-588)4153913-8 gnd rswk-swf Nanoröhre (DE-588)4844582-4 gnd rswk-swf Nanoröhre (DE-588)4844582-4 s Feldemission (DE-588)4153913-8 s DE-604 Saitō, Yahachi 1953- (DE-588)141014318 edt DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=019009226&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=019009226&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext |
| spellingShingle | Carbon nanotube and related field emitters fundamentals and applications Carbon Nanotubes Feldemission (DE-588)4153913-8 gnd Nanoröhre (DE-588)4844582-4 gnd |
| subject_GND | (DE-588)4153913-8 (DE-588)4844582-4 |
| title | Carbon nanotube and related field emitters fundamentals and applications |
| title_auth | Carbon nanotube and related field emitters fundamentals and applications |
| title_exact_search | Carbon nanotube and related field emitters fundamentals and applications |
| title_full | Carbon nanotube and related field emitters fundamentals and applications ed. by Yahachi Saito |
| title_fullStr | Carbon nanotube and related field emitters fundamentals and applications ed. by Yahachi Saito |
| title_full_unstemmed | Carbon nanotube and related field emitters fundamentals and applications ed. by Yahachi Saito |
| title_short | Carbon nanotube and related field emitters |
| title_sort | carbon nanotube and related field emitters fundamentals and applications |
| title_sub | fundamentals and applications |
| topic | Carbon Nanotubes Feldemission (DE-588)4153913-8 gnd Nanoröhre (DE-588)4844582-4 gnd |
| topic_facet | Carbon Nanotubes Feldemission Nanoröhre |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=019009226&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=019009226&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
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