Symposium C, 'Fundamentals of Low-Dimensional Carbon Nanomaterials' includes topics such as growth techniques for CNTs and graphene, and structural characterization.
Symposium C, 'Fundamentals of Low-Dimensional Carbon Nanomaterials' includes topics such as growth techniques for CNTs and graphene, and structural characterization.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
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.
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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