This book describes recent progress of researches on nanocarbon field electron emitters ranging from fundamental properties to promising applications, e.g., X-ray sources, vacuum electronic devices, space thrusters and so on.
This book describes recent progress of researches on nanocarbon field electron emitters ranging from fundamental properties to promising applications, e.g., X-ray sources, vacuum electronic devices, space thrusters and so on.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Yahachi Saito is Professor Emeritus at Nagoya University, Japan, and a fellow at Toyota Physical and Chemical Research Institute, Japan. He has also been a professor at Toyohashi University of Technology and Mie University, Japan, and a visiting scientist at AT&T Bell Laboratories. His area of expertise encompasses the synthesis, characterization, and application of nanometer-scale materials, especially inorganic atomic clusters and fine particles, fullerene, CNTs, and graphene. He has studied CNT-field emitters since 1996, collaborating with Noritake Itron Corp. since 1997 for the development of display devices using CNT as a cold cathode. They demonstrated the world's first CNT-based display device at the SID International Conference in 1998.
Inhaltsangabe
1. FEM and FIM of Carbon Nanotubes 2. Electromechanical Self¿Oscillations of Carbon Field Emitters 3. Performance of Point-Typed Carbon Nanotube Field Emitters 4. Theoretical Field-Emission Patterns from Carbon Nanotubes 5. Heat Localization and Thermionic Emission from Carbon Nanotubes 6. Field Emission from the Edges of Single-Layer Graphene 7. FEM and FIM of Graphene 8. Spin-Polarized Field-Emitted Electrons from Graphene Oxide Edges 9. Theoretical Coherent Field Emission of Graphene 10. Influence of Edge Structures of Graphene on Field-Emission Properties 11. Theory of Thermionic Electron Emission for 2D Materials 12. Direct Grown Vertically Full Aligned Carbon Nanotube Electron Emitters for X-Ray and UV Devices 13. Development of CNT X-Ray Technology for Medical and Dental Imaging 14. Graphene Cold Field-Emission Sources for Electron Microscopy Applications 15. CNT Field-Emission Cathode for Space Applications 16. Growth of Long Linear Carbon Chains after Serious Field Emission from a CNT Film 17. Emission of C20 + by Field Evaporation from CNT
1. FEM and FIM of Carbon Nanotubes 2. Electromechanical Self¿Oscillations of Carbon Field Emitters 3. Performance of Point-Typed Carbon Nanotube Field Emitters 4. Theoretical Field-Emission Patterns from Carbon Nanotubes 5. Heat Localization and Thermionic Emission from Carbon Nanotubes 6. Field Emission from the Edges of Single-Layer Graphene 7. FEM and FIM of Graphene 8. Spin-Polarized Field-Emitted Electrons from Graphene Oxide Edges 9. Theoretical Coherent Field Emission of Graphene 10. Influence of Edge Structures of Graphene on Field-Emission Properties 11. Theory of Thermionic Electron Emission for 2D Materials 12. Direct Grown Vertically Full Aligned Carbon Nanotube Electron Emitters for X-Ray and UV Devices 13. Development of CNT X-Ray Technology for Medical and Dental Imaging 14. Graphene Cold Field-Emission Sources for Electron Microscopy Applications 15. CNT Field-Emission Cathode for Space Applications 16. Growth of Long Linear Carbon Chains after Serious Field Emission from a CNT Film 17. Emission of C20 + by Field Evaporation from CNT
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