The Oxford handbook of nanoscience and technology: 1 Basic aspects
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| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Oxford
Oxford Univ. Press
2010
|
| Ausgabe: | 1. publ. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XIX, 898 S. Ill., graph. Darst. 26 cm |
| ISBN: | 9780199533046 |
Internformat
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| 245 | 1 | 0 | |a The Oxford handbook of nanoscience and technology |n 1 |p Basic aspects |c ed. by A. V. Narlikar ... |
| 250 | |a 1. publ. | ||
| 264 | 1 | |a Oxford |b Oxford Univ. Press |c 2010 | |
| 300 | |a XIX, 898 S. |b Ill., graph. Darst. |c 26 cm | ||
| 336 | |b txt |2 rdacontent | ||
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| 338 | |b nc |2 rdacarrier | ||
| 650 | 4 | |a Nanoscience | |
| 650 | 4 | |a Nanostructured materials | |
| 650 | 4 | |a Nanotechnology | |
| 700 | 1 | |a Narlikar, Anant V. |d 1940- |e Sonstige |0 (DE-588)128527307 |4 oth | |
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Datensatz im Suchindex
| _version_ | 1804141084180217856 |
|---|---|
| adam_text | Contents
List of Contributors
xvi
1 Nanoeiectronic devices:
Λ
unified view
1
Supri·.,)
[Kitla
1 1
Introduction I
12
The
NtGř-
Landauer
movie!
5
3
A te*
examples
12
1 4
Concluding remarks
19
References
2
1
2
Electronic and transport properties of doped silicon
nanowires
23
V/
-
V Fernanda:- Srrra and V BUi^f
2 1
Introduction
23
2 2
Electronic structure of silicon
nano·* ires
24
2 3
CX>p»ng characteristics of SiNWs 2b
2 4
Electronic transport
30
2 5
Multiple impurities and disorder
36
2 6
Codaient
functioruli/ation of SiNW
s
37
2
~ Conclusion,
42
References
43
3
NF(ir -based modeb for dephastng in qaantam transport
46
Яиі.чігш
Gi>íí;adťh- (n/tjr4d
and Supn n Datta
3 1
IntroductHHi
46
3 2
Deprime
model
47
3
Effect of different tvpes of Jephasing on
rmimcntum
and spin
rela at»>n
48
5 4
Effect of different tvpes of Jcphasing t>n phase relaxation
50
* 5
Calculating
L
m
і
,.
and
/
.%,
51
3 6
Example
чрт-
Hall effect
55
^ Summarv
60
References
60
4
Molecular
nano«
í
res
aed
their properties as electrical
conductors
62
4 1
IntrtniuctiiWi f>-
4 2
Л
haï
-ire
molecular nanovures
63
■і |чіе^иЦг
пдш«А!геѕ
have been
reali/ed
in
α
varietş
of v»ays
65
χ
Contents
4.4
A major challenge: The atomic-scale geometry is not known
67
4.5
Brief overview of molecular nanowire varieties: Different
molecules, linkers and electrodes
70
4.6
Electrical conduction as a quantum scattering problem
75
4.7
Model building: Principles and caveats
79
4.8
Theory confronts experiment: Some case studies
88
4.9
Summary and outlook
99
Acknowledgments
103
References
104
Quasi-ballistic electron transport in atomic wires
117
Jan M. van
Ruitenbeek
5.1
Introduction
117
5.2
Experimental techniques
118
5.3
Atomic-sized metallic contacts
121
5.4
Metal-molecule-metal junctions
133
5.5
Conclusion
140
References
140
Thermal transport of small systems
145
Takahiro Yamamoto, Kazuyuki Watanabe, and Satoshi Watanabe
6.1
Introduction
145
6.2
Boltzmann-Peierls formula of diffusive phonon transport
146
6.3
Coherent phonon transport
149
6.4
Quasi-ballistic phonon transport
158
6.5
Conclusions
163
Acknowledgments
164
Appendix: Derivation of eqn
(6.42) 165
References
165
Atomistic spin-dynamics
167
M.
Stamenova
and S. Sanvito
7.1
Introduction
167
7.2
Model spin Hamiltonian
169
7.3
Test simulations
171
7.4
Current-induced domain-wall motion
186
7.5
Spin-motive force
203
7.6
Conclusions
210
Acknowledgments
210
References
211
Patterns and pathways in nanoparticle self-organization
214
MO Blunt, A. Stannard, E. Pauliac-Vaujour, CP Martin, loan
Vancea,
Milovan Šuvakov,
Uwe Thiele,
Bosiljka Tadić,
and
P. Moriarty
8.1
Introduction
214
8.2
Self-assembled and self-organized nanoparticle arrays
215
Contents xi
8.3
Pathways for charge transport in nanoparticle
assemblies
237
8.4
Conclusion
245
Acknowledgments
245
References
245
9
Self-organizing atom chains
249
Arie
van Houselt and Harold J. W. Zandvliet
9.1
Introduction
249
9.2
Formation of monoatomic Pt chains on GeCOOl)
255
9.3
Quantum confinement between monoatomic Pt chains
263
9.4
Peierls instability in monoatomic Pt chains
269
9.5
Conclusions and outlook
275
References
276
10
Designing low-dimensional nanostructures at surfaces by
supramolecular chemistry
278
Nian Lin
and Sebastian Stepanow
10.1
Introduction
278
10.2
Hydrogen-bond systems
281
10.3
Metal-co-ordination systems
297
10.4
Conclusions
305
References
305
11
Nanostructured surfaces: Dimensionally constrained
electrons and correlation
308
E.
Bertel
and A.
Menzel
11.1
Introduction
308
11.2
Motivation
310
11.3
Interactions in low-dimensional systems
317
11.4
Self-assembled nanostructures on surfaces
325
11.5
The phase diagram of real quasi-
1
D
systems
331
11.6
Conclusions
350
Acknowledgments
351
References
351
12
Reaction studies on nanostructured surfaces
355
Adolf
Winkler
12.1
Introduction
355
12.2
Nanostructured surfaces
356
12.3
Fundamentals of reaction processes
361
12.4
Experimental techniques
374
12.5
Selected experimental results
380
12.6
Summary
391
Acknowledgments
392
References
392
xii Contents
13 Nanotribology 396
S. K.
Biswas
13.1
Introduction
396
13.2
Nanotribological tools
399
13.3
Interfacial
phenomena and interaction forces
401
13.4
Microscopic origin of friction
405
13.5
Oil in confinement and boundary lubrication
415
13.6
Additives in confinement-boundary lubrication
417
13.7
Summary
435
Acknowledgments
437
References
437
14
The electronic structure of epitaxial graphene
—
A view from
angle-resolved photoemission spectroscopy
441
S.Y. Zhou and
A. Lanzara
14.1
Introduction
441
14.2
Electronic structure of graphene
442
14.3
Sample growth and characterization
445
14.4
Electronic structure of epitaxial graphene
447
14.5
Gap opening in single-layer epitaxial graphene
451
14.6
Possible mechanisms for the gap opening
454
14.7
Conclusions
460
Acknowledgments
461
References
461
15
Theoretical simulations of scanning tunnelling microscope
images and spectra of nanostructures
464
Jinlong Yang and Qunxiang Li
15.1
Introduction
464
15.2
Theories of STM and
STS
466
15.3
Conventional STM and
STS
investigations
472
15.4
Beyond conventional STM investigations
489
15.5
Concluding remarks
503
References
503
16
Fünctionalization
of single-walled carbon nanotubes:
Chemistry and characterization
508
R.
Graupner
and
F. Hauke
16.1
Introduction
508
16.2
Chemical
fünctionalization
of single-walled carbon nanotubes
509
16.3
Characterization
527
16.4
Conclusion
541
References
541
17
Quantum-theoretical approaches to proteins and nucleic acids
549
Mauro Boero
and Masaru Tateno
17.1
Introduction
549
17.2
Hartree-Fock and all-electron approaches
553
Contents xiii
17.3
Density-functional theory approaches
561
17.4
Hybrid QM/MM approaches
576
17.5
Beyond the local-minima exploration
587
17.6
Final remarks
592
References
592
18
Magnetoresistive phenomena in nanoscale magnetic contacts
599
J.D. Burton and E. Y. Tsymbal
18.1
Introduction
599
18.2
Ballistic transport and conductance quantization
603
18.3
Domain-wall magnetoresistance at the nanoscale
611
18.4
Anisotropic magnetoresistance in magnetic nanocontacts
619
18.5
Tunnelling anisotropic magnetoresistance in broken contacts
626
18.6
Conclusions and outlook
629
Acknowledgments
632
References
633
19
Novel superconducting states in nanoscale superconductors
639
A. Kanda,
Y.
Ootuka,
К.
Kadowaki, and
FM.
Peelers
19.1
Introduction
639
19.2
Theoretical formalism
642
19.3
Theoretical predictions of vortex states in thin mesoscopic
superconducting films
644
19.4
Experimental techniques for detection of vortices
655
19.5
Experimental detection of mesoscopic vortex states in
disks and squares
659
19.6
One-dimensional vortex in mesoscopic rings
668
19.7
Conclusion
672
References
673
20
Left-handed metamaterials
—
A review
677
E. Ozbay, G. Ozkan, and K. Aydin
20.1
Introduction
677
20.2
Negative-permeability metamaterials
678
20.3
Left-handed metamaterial
681
20.4
Negative refraction
684
20.5
Negative phase velocity
687
20.6
Subwavelength imaging and resolution
688
20.7
Planar negative-index metamaterials
691
20.8
Conclusion
698
Acknowledgments
699
References
700
21
2D arrays of
Josephson
nanocontacts and nanogranular
superconductors
703
Sergei Sergeenkov
21.1
Introduction
703
21.2
Model of nanoscopic
Josephson
junction arrays
705
xiv Contents
21.3 Magnetic-field-induced
polarization effects
in 2D JJA 710
21.4
Giant enhancement of thermal conductivity in 2D JJA
713
21.5
Thermal expansion of a single
Josephson
contact
and 2D JJA
720
21.6
Summary
726
Acknowledgments
728
References
728
22
Theory, experiment and applications of tubular image states
731
D. Segal, P.
Král,
and M. Shapiro
22.1
Introduction
731
22.2
Characterizing tubular image states
734
22.3
Manipulating tubular image states
750
22.4
Experimental verifications
764
22.5
Summary
767
Acknowledgments
767
References
767
23
Correlated electron transport in molecular junctions
771
K.S. Thygesen and
A. Rubio
23.1
Introduction
771
23.2
Formalism
773
23.3
Many-body self-energy
781
23.4
Current formula and charge conservation
786
23.5
Two-level model
791
23.6
Applications to
СбНб
and H2 molecular junctions
802
23.7
Summary and perspectives
809
Acknowledgments
810
Appendix
810
References
811
24
Spin currents in semiconductor nanostructures:
A non-equilibrium Green-function approach
814
Branislav K.
Nikolić,
Liviu P.
Zârbo,
and Satofumi Souma
24.1
Introduction
814
24.2
What is pure spin current?
816
24.3
How can pure spin currents be generated and detected?
817
24.4
What is the spin-Hall effect?
817
24.5
What is the mesoscopic spin-Hall effect?
819
24.6
SO couplings in low-dimensional semiconductors
821
24.7
Spin-current operator, spin density, and spin accumulation
in the presence of intrinsic SO couplings
833
24.8
NEGF approach to spin transport in multiterminal
SO-coupled nanostructures
835
24.9
Computational algorithms for real®spin space NEGFs
in multiterminal devices
853
24.10Concluding remarks
860
Acknowledgments
861
References
861
Contents xv
25
Disorder-induced electron localization in molecular-based
materials
866
Sven Stafström
and
Mikael
Unge
25.1
Introduction
866
25.2
Methodology
871
25.3
Results and discussion
879
25.4
Summary
887
Acknowledgments
889
References
889
Subject Index
893
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| id | DE-604.BV036048164 |
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| indexdate | 2024-07-09T22:10:15Z |
| institution | BVB |
| isbn | 9780199533046 |
| language | English |
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| spelling | The Oxford handbook of nanoscience and technology 1 Basic aspects ed. by A. V. Narlikar ... 1. publ. Oxford Oxford Univ. Press 2010 XIX, 898 S. Ill., graph. Darst. 26 cm txt rdacontent n rdamedia nc rdacarrier Nanoscience Nanostructured materials Nanotechnology Narlikar, Anant V. 1940- Sonstige (DE-588)128527307 oth (DE-604)BV035990327 1 Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018939905&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | The Oxford handbook of nanoscience and technology Nanoscience Nanostructured materials Nanotechnology |
| title | The Oxford handbook of nanoscience and technology |
| title_auth | The Oxford handbook of nanoscience and technology |
| title_exact_search | The Oxford handbook of nanoscience and technology |
| title_full | The Oxford handbook of nanoscience and technology 1 Basic aspects ed. by A. V. Narlikar ... |
| title_fullStr | The Oxford handbook of nanoscience and technology 1 Basic aspects ed. by A. V. Narlikar ... |
| title_full_unstemmed | The Oxford handbook of nanoscience and technology 1 Basic aspects ed. by A. V. Narlikar ... |
| title_short | The Oxford handbook of nanoscience and technology |
| title_sort | the oxford handbook of nanoscience and technology basic aspects |
| topic | Nanoscience Nanostructured materials Nanotechnology |
| topic_facet | Nanoscience Nanostructured materials Nanotechnology |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018939905&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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