[1] Lin Zhixian, Lin Yunying, Guo Tailiang. The image processing and display control technology of printable field emission display[J]. J. Optoelectronics·Laser, 2007, 18(2): 140~143
[2] Li Juntao, Lei Wei, Zhang Xiaobing et al.. Field emission characteristic of screenprinted carbon nanotube cathode[J]. Appl. Sur. Sci., 2003, 220(7): 96~104
[3] Lin Zhixian, Liao Zhijun, Guo Tailiang. Larger screen FED video display system[J]. Chin. J. Liquid Crystals and Displays, 2005, 20(5): 440~445
[8] Wang Qilong, Wei Lei, Zhang Xiaobing et al.. A novel gate structure in large diagonal size printable CNT-FED[J].Appl. Sur. Sci., 2005, 239(3-4): 458~463
[9] Hyung Soo Uh, Sang Sik Park.Carbon nanotubes growing on rapid thermal annealed Ni and their application to a triode-type field emission device[J].Thin Solid Films, 2006, 504(1-2): 50~54
[10] Kyung Ho Park, Sungil Bae, Soonil Lee.Triode field emitters with planar carbon- nanoparticle cathodes[J].Current Applied Physics, 2006, 6(6): 1048~1053
[11] Y. J. Jung, G. H. Son, J. H. Park. Fabrication and properties of under-gated triode with CNT emitter for flat lamp[J].Diamond and Related Materials, 2005, 14(11-12): 2109~2112
[12] Fuminori Ito, Yoshiori Tomihari, Yuko Okada et al.. Carbon nanotube-based triode field emission displays using gated emitter structure[J].IEEE Electron Device Letters, 1999, 22(9): 426~428
[13] Iwanaga H, Fujii M. Some evidence for the octa-twin model of tetrapod ZnO particles[J]. J. Crystal Growth, 1994, (141): 234
[14] Zhao Haifeng, Song Hang, Li Zhiming.Electrophoretic deposition and field emission properties of patterned carbon nanotubes[J].Appl. Sur. Sci., 2005, 251(1-4): 242~244
[15] J. E. Jung, Y. W. Jin, J. H. Choi et al.. Fabrication of triode-type field emission displays with high-density carbon-nanotube emitter arrays[J].Physica B: Condensed Matter, 2002, 323(1-4): 71~77
