Fundamentals of Low-Dimensional Carbon Nanomaterials
Volume 1284
Part of MRS Proceedings
- Editors:
- John J. Boeckl, Air Force Research Laboratory
- Mark Rümmeli, Leibniz Institute, IFW Dresden
- Weijie Lu, Fisk University
- Jamie Warner, University of Oxford
- Reprinted: June 2014
- Date Originally Published: May 2011
- availability: Available
- format: Paperback
- isbn: 9781107406667
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Symposium C, 'Fundamentals of Low-Dimensional Carbon Nanomaterials', was held November 29–December 3 at the 2010 MRS Fall Meeting in Boston, Massachusetts. This resultant proceedings volume includes topics such as growth techniques for CNTs and graphene, structural characterization, novel properties, and interface and surface structures. Low-dimensional carbon nanostructures exhibit a rich structural diversity from zero-dimensional C60, one-dimensional carbon nanotubes (CNTs), and two-dimensional graphene and graphite oxides. These low-dimensional carbon nanostructures are at the forefront of materials science and provide a platform for understanding the growth mechanisms and properties of nanostructures in general. They exhibit novel properties with endless potential applications from high-speed electronics to high-performance composites. Although low-dimensional carbon nanomaterials have attracted great interest in the research community, the applications and commercialization of graphene and CNTs have, to date, not been as successful as anticipated. The need for significant improvements in material quality and structural uniformity exists.
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×Product details
- Reprinted: June 2014
- Date Originally Published: May 2011
- format: Paperback
- isbn: 9781107406667
- length: 202 pages
- dimensions: 229 x 152 x 11 mm
- weight: 0.28kg
- contains: 108 b/w illus. 9 tables
- availability: Available
Table of Contents
Part I. Growth of Graphene/Substrate Structures:
1. Graphene growth on SiC and other substrates using carbon sources William Mitchel
2. CVD growth of graphene on three types of epitaxial metal films on sapphire substrate Katsuya Nozawa
Part II. Low-Dimensional Graphitization and Structural Transformations:
3. Low temperature CVD growth of graphene nano-flakes directly on high K dielectrics Mark Ruemmeli
4. On the carbo-thermal reduction of silica for carbon nano-fiber formation via CVD Alicja Bachmatiuk
5. A fully atomistic reactive molecular dynamics study on the formation of graphane from graphene hydrogenated membranes Douglas Galvao
Part III. Poster Session: Mechanism, Growth, and Processes of Low-Dimensional Carbon Nanostructures:
6. Metal-catalyzed graphitization in Ni-C alloys and amorphous-C/Ni bilayers Katherine Saenger
7. Hole or electron doped C60 polymer using free electron laser irradiation Nobuyuki Iwata
8. Comparison of epitaxial graphene on Si-face and C-face 6H-SiC Shin Mou
Part IV. CNTs Growth, Exploring Novel CNT Growth Techniques and Growth Mechanisms I:
9. Growth of diameter-modulated single-walled carbon nanotubes through instant temperature modulation in laser-assisted chemical vapor deposition Yong Feng Lu
10. A CMOS compatible carbon nanotube growth approach Daire Cott
Part V. CNTs Growth, Exploring Novel CNT Growth Techniques and Growth Mechanisms II:
11. On the formation of carbon nanotube serpentines: insights from multimillion atom molecular dynamics simulation Leonardo Machado
Part VI. Electronic, Optical, and Magnetic Properties of Carbon Nanomaterials I:
12. Graphene for magnetoresistive junctions Junichiro Inoue
13. Room temperature superparamagnetism observed in foam-like carbon nanomaterials Shunji Bandow
Part VII. Structural Characterization:
14. In-situ observations of restructuring carbon nanotubes via low-voltage aberration-corrected transmission electron microscopy Felix Boerrnert
Part VIII. Optical Probes:
15. A fully automated remote controllable microwave-based synthesis set-up for colloidal nanoparticles with integrated absorption and photoluminescence online analytics Michael Krueger
Part IX. Electronic, Optical, and Magnetic Properties of Carbon Nanomaterials II:
16. Band gap opening of graphene after UV/ozone and oxygen plasma treatments Adrianus Aria
Part X. Poster Session: Characterizations and Properties of Low-Dimensional Nanocarbon Structures:
17. Thermal, chemical and radiation treatment influence on hydrogen adsorption capability in single wall carbon nanotubes Leonid Bazyma
18. Electrogenerated chemiluminescence from carbon dots Liangfeng Sun
19. Far infrared characterization of single and double walled carbon nanotubes Shin Chou
20. Curvature-induced symmetry lowering and anomalous dispersion of phonons in single-walled carbon nanotubes Jason Reppert
21. Properties modeling of low-dimensional carbon nanostructures Leonid Bazyma
Part XI. Doping, Defects and Surface Chemistry:
22. Effect of sidewall fluorination on the mechanical properties of catalytically grown multi-wall carbon nanotubes Jun Lou
Part XII. Novel Structures and Properties of Low Dimensional Carbon Nanostructures:
23. Nonlinear mechanical properties of graphene nanoribbons Rui Huang
24. Dynamics of graphene nanodrums Gustavo Brunetto
25. A novel method for sorting single wall carbon nanotubes by length Takeshi Saito.
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