By Yahachi Saito
Chapter 1 constructions and Synthesis of Carbon Nanotubes (pages 1–14): Prof. Yahachi Saito
Chapter 2 guidance of CNT Emitters (pages 15–21): Prof. Yahachi Saito
Chapter three practise of Patterned CNT Emitters (pages 23–40): Mark Mann, William eire Milne and Kenneth Boh Khin Teo
Chapter four box Emission conception (pages 41–54): Seungwu Han
Chapter five box Emission from Graphitic Nanostructures (pages 55–66): Kazuyuki Watanabe and Masaaki Araidai
Chapter 6 The Optical functionality of Carbon Nanotube box Emitters (pages 67–80): Niels de Jonge
Chapter 7 warmth iteration and Losses in Carbon Nanotubes in the course of box Emission (pages 81–94): Stephen T. Purcell, Pascal Vincent and Anthony Ayari
Chapter eight box Emission Microscopy of Multiwall CNTs (pages 95–107): Prof. Yahachi Saito
Chapter nine In situ Transmission Electron Microscopy of CNT Emitters (pages 109–117): Koji Asaka and Prof. Yahachi Saito
Chapter 10 box Emission from Single?Wall Nanotubes (pages 119–142): Kenneth A. Dean
Chapter eleven Simulated electrical box in an Array of CNTs (pages 143–162): Hidekazu Murata and Hiroshi Shimoyama
Chapter 12 floor Coating of CNT Emitters (pages 163–175): Yoshikazu Nakayama
Chapter thirteen Graphite Nanoneedle box Emitter (pages 177–192): Takahiro Matsumoto and Hidenori Mimura
Chapter 14 box Emission from Carbon Nanowalls (pages 193–204): Masaru Hori and Mineo Hiramatsu
Chapter 15 versatile box Emitters: Carbon Nanofibers (pages 205–218): Masaki Tanemura and Shu?Ping Lau
Chapter sixteen Diamond Emitters (pages 219–230): Shozo Kono
Chapter 17 ZnO Nanowires and Si Nanowires (pages 231–258): Baoqing Zeng and Zhi Feng Ren
Chapter 18 Lamp units and personality monitors (pages 259–285): Sashiro Uemura
Chapter 19 Screen?Printed Carbon Nanotube box Emitters for reveal functions (pages 287–309): Yong Churl Kim, In Taek Han and Jong Min Kim
Chapter 20 Nanotube box Emission monitors: Nanotube Integration by means of Direct development suggestions (pages 311–331): Kenneth A. Dean
Chapter 21 Transparent?Like CNT?FED (pages 333–341): Takeshi Tonegawa, Masateru Taniguchi and Shigeo Itoh
Chapter 22 CNT?Based FEL for BLU in liquid crystal display (pages 343–371): Yoon?Ho music, Jin?Woo Jeong and Dae?Jun Kim
Chapter 23 High?Current?Density box Emission Electron resource (pages 373–388): Shigeki Kato and Tsuneyuki Noguchi
Chapter 24 High?Resolution Microfocused X?Ray resource with features of Scanning Electron Microscope (pages 389–400): Koichi Hata and Ryosuke Yabushita
Chapter 25 Miniature X?Ray Tubes (pages 401–416): Fumio Okuyama
Chapter 26 Carbon Nanotube?Based box Emission X?Ray know-how (pages 417–437): Otto Zhou and Xiomara Calderon?Colon
Chapter 27 Microwave Amplifiers (pages 439–470): Pierre Legagneux, Pierrick Guiset, Nicolas Le Sech, Jean?Philippe Schnell, Laurent Gangloff, William I. Milne, Costel S. Cojocaru and Didier Pribat
Read Online or Download Carbon Nanotube and Related Field Emitters: Fundamentals and Applications PDF
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Extra info for Carbon Nanotube and Related Field Emitters: Fundamentals and Applications
CNTs can also be aligned along magnetic ﬁeld lines as a result of their anisotropic nature. A magnetophoretic method, where an alternating magnetic ﬁeld at 60 Hz is applied to the MWCNTs suspended in dichloromethane to attach aligned CNTs onto the tip of an atomic force microscope (AFM), has been reported . 4 Direct Growth on the Apex of a Tip A technique for growing individual CNT probe tips directly by chemical vapor deposition (CVD) at the end of a silicon tip, which is used as an AFM probe, has been developed , and the improvement in the spatial resolution, wear resistance, and the probing depth by the employment of CNT scanning probes has been demonstrated.
2 Plasma-Enhanced CVD The plasma-enhanced chemical vapor deposition (PECVD) method involves a glow discharge in a reaction chamber through a high-frequency voltage applied to the electrodes. PECVD was ﬁrst introduced in the fabrication of microelectronic devices in order to enable the CVD process to proceed at reduced temperatures of a substrate because the substrate cannot tolerate the elevated temperature of some thermal CVD processes. The common PECVD processes proceed at substantially 9 10 1 Structures and Synthesis of Carbon Nanotubes lower substrate temperatures (room temperature to 100 ◦ C).
356, 595. See for example Govindaraj, A. R. (2006) Carbon 13 14 1 Structures and Synthesis of Carbon Nanotubes 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. Nanotechnol, Chapter 2 (ed. Dai), Elsevier, Amsterdam. , and Awano, Y. (2006) Proceedings of the International Conference on Solid State Devices and Materials, p. 140; (b) Ishikawa, Y. and Ishizuka, K. (2009) Appl. Phys. Express, 2, 045001. , and Kawarada, H. (2007) New Diamond and Nano Carbon, Abstract Book, p. 195. , and Hirao, T. (2003) Jpn.