Carbon nanotubes and graphene for photonic applications:
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Oxford [u.a.]
Woodhead Publishing
2013
|
| Ausgabe: | 1. publ. |
| Schriftenreihe: | Woodhead Publishing series in electronic and optical materials
47 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Klappentext |
| Beschreibung: | Includes bibliographical references and index |
| Beschreibung: | XVIII, 398 S. Ill., graph. Darst. |
| ISBN: | 9780857094179 |
Internformat
MARC
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Datensatz im Suchindex
| _version_ | 1804152203334647808 |
|---|---|
| adam_text | Contents
Contributor contact details
xi
Woodhead Publishing Series in Electronic and Optical Materials
xv
Part I Optical properties and fabrication of carbon
nanotubes and graphene
1
1
Fundamental optical properties of carbon nanotubes
and graphene
3
K. Matsuda, Kyoto University, Japan
1.1
Introduction
3
1.2
Basic optical properties of carbon nanotubes
4
1.3
Novel excitonic properties of carbon nanotubes
12
1.4
Conclusion
23
1.5
References
23
2
Synthesis of carbon nanotubes and graphene for
photonic applications
26
E. Einarsson and S. Maruyama, The University
of Tokyo, Japan
2.1
Introduction
26
2.2
Synthesis of single-walled carbon nanotubes (SWNTs)
27
2.3
Single-walled carbon nanotube synthesis for photonic
applications
34
2.4
Graphene synthesis
38
2.5
Conclusion and future trends
47
2.6
References
48
©Woodhead Publishing Limited,
2013
vi
Contents
3 Carbon nanotube and graphene
photonic devices:
nonlinearity enhancement and novel preparation
approaches
57
Y.-W. Song, Korea Institute of Science and Technology
(KIST),
South Korea
3.1
Introduction
57
3.2
Nonlinearity of carbon nanotubes and graphene;
saturable
absorption
58
3.3
Novel interaction schemes of propagating light with carbon
nanostructures
62
3.4
Highly efficient preparation of fiber mode-lockers
77
3.5
Conclusion
92
3.6
References
92
Part II Carbon nanotubes and graphene for laser applications
97
4
Optical gain and lasing in carbon nanotubes
99
E.
Gaufrés,
N.
Izard, A. Noury, X.
Le Roux
and
L.
Vivien, CNRS
-
Université Paris Sud, France
4.1
Introduction
99
4.2
Extraction
of semiconducting carbon
nanotubes
100
4.3
Towards carbon nanotubes-based lasers
109
4.4
Optical gain in single-walled carbon nanotubes (SWNTs)
109
4.5
Conclusion
115
4.6
References
116
5
Carbon nanotube and graphene-based fiber lasers
121
A. Martcnez and S. Yamashfta, University of Tokyo, Japan
5.1
Introduction
121
5.2
Carbon nanotube and graphene
saturable
absorbers
123
5.3
Mode-locked fiber lasers employing graphene and CNTs
133
5.4
Conclusion and future trends
139
5.5
References
140
6
Carbon-nanotube-based bulk solid-state lasers
144
W.
В. Сно
and
F. Rotermund,
Ajou University, South Korea
6.1
Introduction
144
6.2
Fabrication of single-walled carbon nanotubes
(SWCNTs)-based
saturable
absorbers
146
©
Woodhead Publishing Limited,
2013
Contents
vii
6.3
Device characteristics
150
6.4
Mode-locking of bulk solid-state lasers
156
6.5
Conclusion and future trends
166
6.6
References
167
7
Electromagnetic nonlinearities in graphene
171
S. Mikhailov, University of Augsburg, Germany
7.1
Introduction
171
7.2
Electronic properties of graphene
173
7.3
Linear electrodynamics of graphene
180
7.4
Nonlinear electromagnetic response of graphene
196
7.5
Conclusion and future trends
216
7.6
Acknowledgements
217
7.7
References
217
б
Carbon nanotube-based nonlinear photonic devices
220
K. K. Chow, Nanyang Technological University, Singapore
8.1
Introduction
220
8.2
Design and fabrication of carbon nanotube (CNT)-based
nonlinear photonic devices
222
8.3
Applications of CNT-based nonlinear photonic devices
229
8.4
Conclusion
236
8.5
References
237
Part III Carbon-based optoelectronics
239
9
Carbon nanotube solar cells
241
B. A. Baker, H. Zhang, T.-G.
Cha
and J. H. Choi, Purdue
University, USA
9.1
Introduction
241
9.2
Optoelectronic properties of carbon nanotubes
242
9.3
Scope of the study
246
9.4
Carbon nanotubes in solid-state bulk heterojunction
polymer solar cells
246
9.5
Carbon nanotubes in liquid phase photoelectrochemical
cells: donor—acceptor hybrids
252
9.6
Single-walled carbon nanotubes in photoactive
layer of dye-sensitized solar cells
256
9.7
Carbon nanotubes as electrode materials in
photovoltaic devices
257
©
Woodhead Pubfishrng Limited,
2013
viii Contents
9.8
Developing technologies
259
9.9
Conclusion and future trends
262
9.10
Acknowledgement
263
9.11
References
263
10
Carbon nanotube-based optical platforms for
biomolecuiar detection
270
J.
Ραν,Τ.
-G.
Cha, H.
Chen and J. H. Choi, Purdue
University, USA
10.1
Introduction
270
10.2
Optical-sensing mechanism
275
10.3
Carbon nanotube-based optical sensors for chemical and
biological molecules
281
10.4
Advanced optical-sensing applications
286
10.5
Conclusion
293
10.6
Acknowledgment
294
10.7
References
294
11
Carbon nanotube-based photovoltaic and
light-emitting diodes
298
L.-M.
Peng, S. Wang and Z. Zhang, Peking University, China
11.1
Introduction to carbon nanotube (CNT) diodes
298
11.2
Doping-free fabrication and characteristics of CNT diodes
299
11.3
Performance and optimization of CNT photovoltaic diodes
302
11.4
Photovoltage
multiplication in CNT diodes
307
11.5
Carbon nanotube-based light-emitting diodes
310
11.6
Conclusion and future trends
313
11.7
Acknowledgements
316
11.8
References
316
12
Hybrid carbon nanotube-liquid crystal
nanophotonic devices
319
T. Wilkinson and H. Burr, University of Cambridge, UK
12.1
Introduction
319
12.2
Uniform patterned growth of multiwall carbon nanotubes
(MWCNTs)
320
12.3
Simple optics of nematic liquid crystals
321
12.4
Carbon nanotubes as electrode structures
324
12.5
Reconfigurable
microlens arrays
328
12.6
Transparent nanophotonic devices
330
©Woodhead Publishing Limited,
2013
Contents ix
12.7
Photonic band gap structures using MWCNTs
334
12.8
Towards photonic metamaterials
337
12.9
Conclusion
343
12.10
References
343
13
Quantum light sources based on individual carbon
nanotubes
346
W. Walden-Newman and S. Strauf, Stevens Institute of
Technology, USA
13.1
Introduction
346
13.2
Exciton emission from individual single-walled carbon
nanotubes (SWCNTs)
348
13.3
Blinking and spectral diffusion phenomena in individual
SWCNTs
353
13.4
Techniques to suppress and remove blinking and spectral
diffusion
359
13.5
Quantum light sources based on SWCNTs
368
13.6
Conclusion and future trends
375
13.7
Acknowledgment
375
13.8
References
376
Index
385
©
Woodhoad Publishing
Limited, 2013
WOODHEAD PUBLISHING
SERIES IN ELECTRONIC
AND OPTICAL MATERIALS
The optical properties of carbon nanotubes and graphene make them
potentially suitable for a variety of photonic applications. Carbon nanotubes
and graphene for photonic applications explores the properties of these exciting
materials and their use across a range of applications.
Part
1
introduces the fundamental optical properties of carbon nanotubes
and graphene and goes on to describe the synthesis of carbon nanotubes and
graphene for photonic applications. A further chapter focuses on non-linearity
enhancement and novel preparation approaches for carbon nanotube and
graphene photonic devices. Chapters in Part II discuss carbon nanotubes and
graphene for laser applications and highlight optical gain and lasing in carbon
nanotubes, carbon nanotube- and graphene-based fibre lasers, carbon nanotube-
based bulk solid-state lasers, electromagnetic non-linearities in graphene and
carbon nanotube-based non-linear photonic devices. Finally, Part III reviews
carbon-based optoelectronics and includes chapters on carbon nanotube solar
cells, a carbon nanotube-based optical platform for biomolecular detection,
carbon nanotube-based photovoltaic and light-emitting diodes, hybrid carbon
nanotube-liquid crystal nanophotonic devices and quantum light sources based
on individual carbon nanotubes.
Carbon nanotubes and graphene for photonic applications is a technical resource
for materials scientists, electrical engineers working in the photonics and
optoelectronics industry and academics and researchers interested in the field.
Shinji Yamashita is a Professor at the Research Center for Advanced Science
and Technology (RCAST), The University of Tokyo, Japan. Yahachi
Saito
is a
Professor at the Department of Quantum Engineering, Nagoya University, Japan.
Jong Hyun Choi is a Professor at the School of Mechanical Engineering, Purdue
University, USA.
|
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| indexdate | 2024-07-10T01:06:59Z |
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| isbn | 9780857094179 |
| language | English |
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| physical | XVIII, 398 S. Ill., graph. Darst. |
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| title | Carbon nanotubes and graphene for photonic applications |
| title_auth | Carbon nanotubes and graphene for photonic applications |
| title_exact_search | Carbon nanotubes and graphene for photonic applications |
| title_full | Carbon nanotubes and graphene for photonic applications edited by Shinji Yamashita ... |
| title_fullStr | Carbon nanotubes and graphene for photonic applications edited by Shinji Yamashita ... |
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| title_short | Carbon nanotubes and graphene for photonic applications |
| title_sort | carbon nanotubes and graphene for photonic applications |
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