Nanodiamond:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Cambridge
Royal Soc. of Chemistry
2014
|
| Schriftenreihe: | RSC nanoscience & nanotechnology
31 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Klappentext |
| Beschreibung: | XXI, 530 S. Ill., graph. Darst. |
| ISBN: | 1849736391 9781849736398 |
Internformat
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Datensatz im Suchindex
| _version_ | 1804150718467145728 |
|---|---|
| adam_text | Contents^
Chapter
1
Distribution, Diffusion and Concentration of Defects in
Colloidal Diamond
1
Amanda S. Barnard
1.1
Introduction
1
1.2
Defect-free Diamond Nanoparticles
3
1.3
Modelling Defects in Diamond Nanoparticles
7
1.3.1
Mechanical and Thermodynamic Stability
8
1.3.2
Kinetic Stability and Probability of Observation
9
1.4
Point Defects
10
1.4.1
Intrinsic Defects
10
1.4.2
Incidental Impurities
13
1.4.3
Photoactive N-V Centres
14
1.4.4
H3 Centres,
N3
Centres and V-N-V Defects
17
1.5
Comparison and Concentration
20
1.6
Conclusions
22
Acknowledgments
23
References
23
Chapter
2
Detonation Nanodiamonds; Synthesis, Properties and
Applications
27
A Ya.
Vul ,
A. T. Dideikin, A. E. Aleksenskii and
M. V. Baidakova
2.1
Introduction
27
2.2
Main Features of DND Technology
28
2.2.1
Synthesis of Detonation Carbon
28
2.2.2
Isolation of Nanodiamonds from Detonation
Carbon
30
RSC Nanoscience
&
Nanotechnology No.
31
Nanodiaraond
Edited by Oliver Williams
©
The Royal Society of Chemistry
2014
Published by the Royal Society of Chemistry, www.rsc.org
xi
xii Contents
2.3
Structure
of Detonation Soot Particles and
Nanodiamonds
33
2.4
DND Suspensions
35
2.5
DND Applications
36
2.6
Unsolved Problems
41
2.7
Conclusion
43
Acknowledgements
43
References
44
Chapter
3
The Chemistry of Nanodiamond
49
Anke Krueger
3.1
The Surface Structure of Nanodiamond
49
3.1.1
The Initial Surface Structure
49
3.1.2
Agglomeration and Deagglomeration of
Nanodiamond
51
3.2
Modifying the Surface Termination of
Nanodiamond Particles
53
3.2.1
Direct Termination of the Nanodiamond
Surface
54
3.2.2
Using Linkers for the Surface Modification of
Nanodiamond
68
3.3
Grafting of Complex Moieties onto
Pre-functionalized Nanodiamond
76
3.3.1
Peptide
Coupling onto Nanodiamond
77
3.3.2
Click Chemistry on Nanodiamond
78
3.3.3
Miscellaneous Reactions for the Surface
Modification of Nanodiamond
80
3.4
Summary and Outlook
81
References
82
Chapter
4
Nanodiamond Purification
89
Sebastian Osswald
4.1
Purification of Nanodiamond Powders
89
4.1.1
Introduction
89
4.1.2
Nanodiamond Structure and Composition
90
4.1.3
Assessment of Nanodiamond Purity
92
4.1.4
Thermal Stability and Oxidation Behavior of
Nanodiamond
94
4.2
Chemical Purification of Nanodiamond
96
4.2.1
Liquid-phase Purification
98
4.2.2
Gas-phase Purification
99
4.2.3
Effect of Metal Impurities on Oxidation
Behavior
100
Contents xiii
4.3
Properties of Purified Nanodiamond
102
4.3.1
Structure, Composition, and Surface
Chemistry
102
4.3.2
Optical and Electrical Properties
105
4.4
Summary and Outlook
107
4.4.1
Purity Assessment
107
4.4.2
Purification Treatment
108
References
109
Chapter
5
Pure Nanodiamonds Produced by Laser-assisted
Technique
112
Boris Zousman and
Olga Levinson
5.1
Introduction, Nanodiamond Market, Problems and
Prospects
112
5.2
Synthesis Nanodiamonds by Laser Ablation in
Liquid
114
5.3
Light Hydro-dynamic Pulse for Nanodiamond
Fabrication
116
5.3.1
Technological Process
116
5.3.2
Physical Mechanism
117
5.4
Characterization of Nanodiamonds Obtained by
Laser
Syn
thesis
117
5.4.1
Х
-Ray Diffraction (XRD) Analysis
117
5.4.2
Scanning Electron Microscopy
119
5.4.3
Transmission Electron Microscopy
120
5.4.4
Raman Spectroscopy
122
5.4.5
Inductively Coupled Plasma Mass
Spectrometry
122
5.5
Controlled Nanodiamond Synthesis
123
5.6
LHDP vs. Existing Technology for Detonation
Nanodiamond Synthesis
124
5.7
Conclusion and Prospects in the Development of the
Nanodiamond Industry
125
Acknowledgments
125
References
125
Chapter
6
Electrochemistry of Nanodiamond Particles
128
Katherine
В.
Holt
6.1
Introduction
128
6.2
Diamond in Electrochemistry
129
6.3
Structure and Surface Chemistry of
Nanodiamond
129
xiv
Contents
6.4
Electrochemical Behaviour of Diamond
Nanoparticles
130
6.4.1
Electrode Preparation Methods for the
Study of Nanodiamond Particles
130
6.4.2
Electrochemical Response of Electrode-
immobilised Nanodiamond Particles
131
6.5
Electronic Structure of the Nanodiamond
Surface
135
6.6
Interaction of Nanodiamond Particles with
Solution
Redox
Species
136
6.6.1
Interaction with FeCCN)«^3
136
6.6.2
Interaction of Nanodiamond Particles with
Other Solution
Redox
Species
140
6.7
In Situ Spectroscopy Studies of the Nanodiamond
Surface in
Redox
Solutions
141
6.8
Electrochemical Impedance Spectroscopy Studies
of Nanodiamond Particles
142
6.9
Applications of Nanodiamond in Electrochemical
Technologies
143
6.9.1
Nanodiamond and Electrochemical
Sensors
143
6.9.2
Nanodiamond in Biosensors
143
6.9.3
Nanodiamond as Fuel Cell Catalyst
Electrode Supports
144
6.9.4
Nanodiamond as a Supercapacitor
Electrode Material
145
6.9.5
Nanodiamond in Electrode Coatings and
Composites
146
6.9.6
Nanodiamond in Photocatalysis
146
6.10
Electrochemistry of Other Diamond Nanoparticles
146
6.10.1
Boron-doped Nanodiamond
146
6.10.2
Electrochemistry with
100
nm Diamond
Particles
147
6.10.3
Electrochemical Studies with HTHP Type
lb Diamond
147
6.11
Conclusions and Outlook
148
References
148
Chapter
7
Nanodiamonds for Drug Delivery and Diagnostics
151
Han Man, Joshua
Sasine, Edward
К.
Chow and Dean Ho
7.1
Introduction
151
7.2
Nanodiamond Systemic Drug Delivery
152
7.2.1
Nanodiamond-Doxorubicin Complexes
152
7.2.2
Targeted Nanodiamond Drug Delivery
153
Contents
XV
7.3 Nanodiamond-based
Impiantatile
Devices
154
7.3.1 Nanodiamond-Chemotherapeutic
Tablets
155
7.3.2
Nanodiamond-PLLA Complexes for Tissue
Engineering
156
7.4
Nanodiamonds and Imaging
156
7.4.1
Fluorescent Nanodiamonds for Bio-imaging
Applications
157
7.4.2
Nanodiamonds for Magnetic Resonance
Imaging
158
7.5
Nanodiamond Safety and Biocompatibility
Studies
158
7.5.1
Pre-clinical Evaluation of Nanodiamond
Safety
159
7.5.2
In Vitro Validation of Nanodiamond
Safety
159
7.6
Nanodiamonds and Diagnostics
160
7.6.1
Novel Approaches for Nanodiamond-based
Detection
160
7.7
Modeling of Nanodiamond Vehicles for Optimized
Applications
161
7.7.1
Nanodiamond-based Gene Delivery
161
7.8
Concluding Remarks
163
Acknowledgements
163
References
164
Chapter
8
Biophysical Interaction of Nanodiamond with Biological
Entities In Vivo
170
J.
Mona, E.
Perevedentseva and C.-L. Cheng
8.1
Introduction
170
8.2
Nanodiamond Surface Functionalization/Conjugation
with Biomolecules
171
8.3
Essential Characterizations for the Biophysical
Interactions of Nanodiamond
173
8.4
Interactions of Nano-carbon with Unicellular
Microorganisms
177
8.4.1
Interactions with Bacteria
178
8.4.2
Interactions with Protozoa
184
8.5
Summary
187
References
188
Chapter
9
Neuron Growth on Nanodiamond
195
Robert Edgington and Richard B. Jackman
9.1
Introduction:
Neuronal
Biomaterials
195
xvi Contents
9.2
The Use of Nanodiamond Monolayer Coatings to
Promote the Formation of Functional
Neuronal
Networks
197
9.2.1
Introduction
197
9.2.2 Neuronal
Cell Attachment on ND Layers
198
9.2.3
Substrate Dependence of Surface Roughness
Following ND Layering
199
9.2.4 Neuronal
Attachment and Outgrowth on
Different Materials
201
9.2.5
Formation of
Neuronal
Networks
201
9.2.6
Intrinsic Electric Excitability of ND-grown
Neurons
203
9.2.7
Synaptic Connectivity
204
9.2.8
Electrochemical Network; Calcium Oscillations
205
9.2.9
Discussion
206
9.3
The Effect of Varying Nanodiamond Properties on
Neuronal
Adhesion and Outgrowth
207
9.3.1
Introduction
207
9.3.2
Coating of Different Nanodiamond Coatings
and Characterisation
208
9.3.3 Neuronal
Cell Attachment on ND Coatings
211
9.3.4
Mechanism of
Neuronal
Adhesion with
Respect to ND Surface Properties
213
9.4
Patterned
Neuronal
Networks Using Nanodiamonds
214
9.5
Conclusions
216
References
217
Chapter
10
Diamond Nucleation and Seeding Techniques: Two
Complementary Strategies for the Growth of Ultra-thin
Diamond Films
221
J. C. Arnault and
H. A. Girard
10.1
Introduction
221
10.2
Diamond Nucleation
222
10.2.1
What is Nucleation?
222
10.2.2
Diamond Homogeneous Nucleation
223
10.2.3
Diamond Heterogeneous Nucleation
223
10.2.4
Different Approaches for Enhanced
Diamond Nucleation
227
10.3
Nanodiamond Seeding
233
10.3.1
Abrasion Techniques Involving Particles
233
10.3.2
Controlled Deposition of Nanodiamonds
on Substrates
234
10.4
Conclusion
244
References
245
Contents
XVII
Chapter
11
The Microstructures of Polycry
stalline
Diamond,
Bailas
and Nanocrystalline Diamond
253
Roland Haubner
11.1
Introduction
253
11.2
Polycrystalline Diamond
254
11.3
Low-pressure Diamond
255
11.3.1
Characterisation of the Diamond Deposits
255
11.3.2
Growth Mechanism for the Different
Diamond Morphologies
258
11.4
Correlation of Growth Conditions with Diamond
Morphology
261
11.4.1
Gas Activation (Atomic Hydrogen and
Carbon Species)
261
11.4.2
Gas-phase Composition
262
11.4.3
Influence of Impurities
262
11.5
Summary and Conclusions
263
References
265
Chapter
12
Low-temperature Growth of Nanocrystalline Diamond
Films in Surface-wave Plasma
268
Kazuo Tsugawa and Masataka Hasegawa
12.1
Introduction
268
12.2
Surface-wave Plasma CVD
270
12.3
Nanocrystalline Diamond Grown in Surface-wave
Plasmas
273
12.4
Growth Mechanism
277
12.5
Tribological Properties
282
12.6
Summary
287
References
288
Chapter
13
Low Temperature Diamond Growth
290
Tibor
Izak,
Oleg Babchenko, Stepán Potocky, Zdenek
Remes,
Halyna
Kozak,
Elisseos Verveniotis,
Bohuslav Rezek
and
Alexander
Kromka
13.1
Introduction
290
13.2
Synthesis of Diamond Thin Films
292
13.2.1
CVD Diamond Process Temperature:
Limiting Factor for Substrates
292
13.3
Low Temperature Diamond Growth
297
13.3.1
Strategy
1:
Modification of CVD Deposition
Systems
297
13.3.2
Strategy
2:
Influence of Gas Chemistry
302
xviii Contents
13.4
Determination of Substrate Temperature and
Calculation of Activation Energy
307
13.4.1
Substrate Temperature
307
13.4.2
Activation Energy
309
13.5
LTDG in Pulsed Linear Antenna Microwave Plasma
312
13.6
Diamond Growth on Amorphous Silicon
317
13.6.1
Nucleation and Growth of Diamond on a-Si
317
13.6.2
Selective Growth of Diamond Nanocrystals
320
13.7
Diamond Growth on Glass
322
13.7.1
Diamond Growth Using Focused MW
Plasma
323
13.7.2
Diamond Growth Using PLAMWP
326
13.8
Diamond Growth on Optical Elements for
IR
Spectroscopy
327
13.8.1
Diamond Growth on Metallic Optical
Mirrors for GAR-FTIR
329
13.8.2
Diamond Growth on Si Prism for ATR-FTIR
Applications
331
13.8.3
Diamond Growth on Ge Substrates
333
13.9
Conclusions
335
Acknowledgements
336
References
337
Chapter
14
P-type and N-type Conductivity in Nanodiamond Films
343
Oliver A. Williams
14.1
Introduction
343
14.2
Film Structure and sp2 Content
344
14.3
Film Conductivity
346
14.4
Carrier Transport in NCD Films
348
14.5
Optical Properties of NCD Films
351
14.6
Conclusions
352
References
352
Chapter
15
Electrochemistry of Nanocrystalline and Microciystalline
Diamond
354
Inga
V. Shpilevaya and John S. Foord
15.1
Introduction
354
15.2
Electrochemical Measurements
355
15.3
Diamond Films in Electrochemistry
358
15.4
Electrochemistry of Nanodiamond Powder Films
362
15.5
Functionalised Diamond Electrodes
369
15.5.1
Types of Diamond Surface Termination
371
15.5.2
Photochemical, Electrochemical and
Chemical Functionalisation
375
Contents xix
15.6 Adsorption
Properties of
Diamond Films 378
15.7
Concluding Remarks
380
References
381
Chapter
16
Superconductivity in Nanostructured Boron-doped
Diamond and its Application to Device Fabrication
385
Soumen
Mandal,
Tobias Bautze and Christopher
Bäuerle
16.1
Introduction
385
16.2
Nanofabrication of Polycrystalline Boron-doped
Diamond
387
16.3
Low-temperature Characterization of
Nanofabricated Samples
389
16.4
Superconducting Quantum Interference Device
Made From Superconducting Diamond
393
16.4.1
Low Temperature Studies on Non-shunted
Devices
395
16.4.2
First Trials on Shunted Devices
398
16.5
Nanomechanical Systems
402
16.6
Summary and Conclusions
407
Acknowledgement
407
References
407
Chapter
17
Diamond Nano-electromechanical Systems
411
Pritiraj Mohanty and Matthias Imboden
17.1
Introduction
411
17.1.1
What NEMS Do
412
17.1.2
Why They Work
412
17.1.3
Diamond: The Ideal NEMS Material
412
17.2
NEMS Dynamics
414
17.2.1
Elasticity Theory and the Euler-Bernoulli
Equations
414
17.2.2
Dynamic Solutions
415
17.2.3
Beyond the Standard Euler-Bernoulli
Equation
419
17.2.4
The Simple Harmonic Oscillator and
Nonlinear Terms
419
17.3
Methods of Fabrication, Actuation, and
Detection
422
17.3.1
Fabrication
422
17.3.2
Drive and Detection
425
17.4
Dissipation in Diamond NEMS
432
17.4.1
Clamping Losses
(Q¿})
433
17.4.2
Thermoelastic Dissipation
(Ç^1) 434
XX
Contents
17.4.3 Circuit
Loading
(Q^l1) and Multiple
Materials
(<?мм)
435
17.4.4
Mechanical Defects, Surfaces
{Qšh%)
апс^
Bulk
(Q¿5)
437
17.4.5
Viscous Damping (Q^1)
438
17.4.6
Quantum Dissipation at Ultra-low
Temperatures
439
17.5
Novel Diamond NEMS Devices and Future
Capabilities
441
17.5.1
Field Emission in Diamond
442
17.5.2
Superconductivity and Diamond NEMS
443
17.5.3
The Nitrogen Vacancy Defect in Diamond
444
17.6
Conclusions
444
References
445
Chapter
18
Diamond-based Resonators for Chemical Detection
448
Emmanuel
Scorsone
and Adeline
Trouvé
18.1
Introduction
448
18.2
Diamond Materials: Some Remarkable Properties
for the Development of High Performance
Chemical Sensors
450
18.2.1
Physical Properties
450
18.2.2
Chemical Properties
453
18.3
Diamond Cantilevers
457
18.3.1
Transduction Principles
457
18.3.2
Fabrication Methods
461
18.3.3
Diamond-based Resonant Cantilever
Chemical Sensors
461
18.4
Surface Acoustic Wave Resonators
465
18.4.1
Generality
465
18.4.2
Diamond Nanoparticles-coated SAW
Chemical Sensors
467
18.4.3
Toward Artificial
Olfaction
Using
Diamond-based SAW Sensors
470
18.5
Conclusions
472
References
472
Chapter
19
All-diamond Electrochemical Devices: Fabrication,
Properties, and Applications
476
Nianjun Yang,
Waldemar
Smirnov and Jakob
Hees
19.1
Introduction
476
Contents xxi
19.2
Fabrication
478
19.2.1 Microelectrode
Arrays and
Ultramicroelectrode Arrays
478
19.2.2
Nanoelectrode Ensembles and Arrays
480
19.2.3
Atomic Force Microscope-Scanning
Electrochemical Microscope
(AFM-SECM) Tip
482
19.3
Properties
484
19.3.1
Microelectrode Arrays and
Ultramicroelectrode Arrays
484
19.3.2
Nanoelectrode Ensembles and Arrays
487
19.3.3
Atomic Force Microscope-Scanning
Electrochemical Microscope
(AFM-SECM) Tip
488
19.4
Applications
491
19.5
Summary and Outlook
491
Acknowledgements
492
References
492
Chapter
20
Electron Field Emission from Diamond
499
Travis
С
Wade
20.1
Mechanisms of Electron Emission
499
20.2
Field Emission
500
20.3
Fowler-Nordheim Field Emission Theory
500
20.4
Improvements upon the F-N Form
500
20.5
Factors Relevant to Electron Emission from
Diamond
502
20.5.1
Topology/Geometric Enhancement
502
20.5.2
Temperature
504
20.5.3
Surface States and Electron Affinity
504
20.5.4
Carrier Transport
508
References
511
Subject Index
516
The exceptional mechanical, optical, surface and biocompatibility
properties of nanodiamond have gained it much interest. Exhibiting the
outstanding bulk properties of diamond at the nanoscale in the form
of a film or smatl particle makes it an inexpensive alternative for many
applications.
Nanodiamond is the first comprehensive book on the subject. The
book reviews the state of the art of nanodiamond films and particles
covering the fundamentals of growth, purification, spectroscopy and
some of its diverse applications such as MEMS, drug delivery and
biomarkers
and biosensing. Specific chapters include the theory of
nanodiamond, diamond nucleation, low temperature growth, diamond
nanowires, electrochemistry of nanodiamond, nanodiamond flexible
implants, and cell labelling with nanodiamond particles.
Edited by a leading expert in nanodiamonds, this is the perfect resource
for those new to, and active in, nanodiamond research as well as those
interested in its applications.
Front cover image courtesy of
Amanda Barnard
RSC Nanoscience
b
Nanotechnology
Series Editor-in-Chief: Paul O Brien FRS. University of Manchester, UK
Covering the wide-ranging areas of nanoscience and nanotechnology,
this series will provide a comprehensive source of information on
research associated with nanostructured materials and miniaturised lab
on a chip technologies. Books will discuss the interface of chemistry
with subjects such as materials science, engineering, biology, physics
and electronics to realise developments in this rapidly evolving area.
ISBN
978-1-84973-639-8
81849II736398
ROYAL SOCIETY
OF CHEMISTRY
www.rsc.org/nanoscience
|
| any_adam_object | 1 |
| author | Williams, Oliver |
| author_facet | Williams, Oliver |
| author_role | aut |
| author_sort | Williams, Oliver |
| author_variant | o w ow |
| building | Verbundindex |
| bvnumber | BV041259080 |
| classification_rvk | UQ 8220 |
| ctrlnum | (OCoLC)861676082 (DE-599)BVBBV041259080 |
| 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 | Physik |
| format | Book |
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| id | DE-604.BV041259080 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T00:43:23Z |
| institution | BVB |
| isbn | 1849736391 9781849736398 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-026232951 |
| oclc_num | 861676082 |
| open_access_boolean | |
| owner | DE-703 DE-29T DE-11 |
| owner_facet | DE-703 DE-29T DE-11 |
| physical | XXI, 530 S. Ill., graph. Darst. |
| publishDate | 2014 |
| publishDateSearch | 2014 |
| publishDateSort | 2014 |
| publisher | Royal Soc. of Chemistry |
| record_format | marc |
| series | RSC nanoscience & nanotechnology |
| series2 | RSC nanoscience & nanotechnology |
| spelling | Williams, Oliver Verfasser aut Nanodiamond ed. by Oliver Williams Cambridge Royal Soc. of Chemistry 2014 XXI, 530 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier RSC nanoscience & nanotechnology 31 Nanotechnologie (DE-588)4327470-5 gnd rswk-swf Nanostrukturiertes Material (DE-588)4342626-8 gnd rswk-swf Nanokristall (DE-588)7574326-7 gnd rswk-swf Nanopartikel (DE-588)4333369-2 gnd rswk-swf Eigenschaft (DE-588)4151179-7 gnd rswk-swf Diamant (DE-588)4012069-7 gnd rswk-swf Diamant (DE-588)4012069-7 s DE-604 Nanotechnologie (DE-588)4327470-5 s Nanokristall (DE-588)7574326-7 s Nanopartikel (DE-588)4333369-2 s Nanostrukturiertes Material (DE-588)4342626-8 s Eigenschaft (DE-588)4151179-7 s RSC nanoscience & nanotechnology 31 (DE-604)BV035798085 31 Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026232951&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026232951&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext |
| spellingShingle | Williams, Oliver Nanodiamond RSC nanoscience & nanotechnology Nanotechnologie (DE-588)4327470-5 gnd Nanostrukturiertes Material (DE-588)4342626-8 gnd Nanokristall (DE-588)7574326-7 gnd Nanopartikel (DE-588)4333369-2 gnd Eigenschaft (DE-588)4151179-7 gnd Diamant (DE-588)4012069-7 gnd |
| subject_GND | (DE-588)4327470-5 (DE-588)4342626-8 (DE-588)7574326-7 (DE-588)4333369-2 (DE-588)4151179-7 (DE-588)4012069-7 |
| title | Nanodiamond |
| title_auth | Nanodiamond |
| title_exact_search | Nanodiamond |
| title_full | Nanodiamond ed. by Oliver Williams |
| title_fullStr | Nanodiamond ed. by Oliver Williams |
| title_full_unstemmed | Nanodiamond ed. by Oliver Williams |
| title_short | Nanodiamond |
| title_sort | nanodiamond |
| topic | Nanotechnologie (DE-588)4327470-5 gnd Nanostrukturiertes Material (DE-588)4342626-8 gnd Nanokristall (DE-588)7574326-7 gnd Nanopartikel (DE-588)4333369-2 gnd Eigenschaft (DE-588)4151179-7 gnd Diamant (DE-588)4012069-7 gnd |
| topic_facet | Nanotechnologie Nanostrukturiertes Material Nanokristall Nanopartikel Eigenschaft Diamant |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026232951&sequence=000003&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=026232951&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV035798085 |
| work_keys_str_mv | AT williamsoliver nanodiamond |