|Table of Contents|

[1] Chen Jing, Lei Wei,. New type gate electrode of CNT-FED fabricatedby chemical corrosive method [J]. Journal of Southeast University (English Edition), 2007, 23 (2): 241-243. [doi:10.3969/j.issn.1003-7985.2007.02.018]
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New type gate electrode of CNT-FED fabricatedby chemical corrosive method()
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Journal of Southeast University (English Edition)[ISSN:1003-7985/CN:32-1325/N]

Volumn:
23
Issue:
2007 2
Page:
241-243
Research Field:
Electronic Science and Engineering
Publishing date:
2007-06-30

Info

Title:
New type gate electrode of CNT-FED fabricatedby chemical corrosive method
Author(s):
Chen Jing Lei Wei
School of Electronic Science and Engineering, Southeast University, Nanjing 210096, China
Keywords:
canbon nanotube field emission display(CNT-FED) gate electrode chemical corrosion glass hole
PACS:
TN104.3
DOI:
10.3969/j.issn.1003-7985.2007.02.018
Abstract:
To obtain a triode structure canbon nanotube field emission display(CNT-FED), the glass plate which contains a glass channels matrix is designed and used as the triode part of the CNT-FED.Normally, the gate electrode can be fabricated with screen printing methods and a channels matrix can be fabricated by two-faced chemical corrosion.By adjusting the etch time and the concentration of acid in the process, different shapes of the tunnels can be obtained.The size and morphology of channels are observed by a scanning electron microscope(SEM), and the ingredients of the corrosion solution are detected by infrared ray(IR)analysis.Voltage is added to the triode structure for obtaining the brightness image of the spot on the screen.Eventually, the electron trace pulling from cathode to anode under an electric field is obtained by simulation.It is concluded that the simulation results accord with the experimental results which realize the optimized triode structure.

References:

[1] Zeng Fanguang, Zhu Changchun, Liu Xinghui, et al.Improvement of luminescent stability from carbon nanotube field emission display based on printed CNT film [J].Science in China, Series E: Technological Sciences, 2006, 49(3):283-290.
[2] Kwon Sang Jik, Lee Sang Heon.Field emission characteristics depending on emitter patterns of a screen-printed carbon nanotube field emission array [J].Japanese Journal of Applied Physics, 2006, 45(1):355-358.
[3] Kang Simon, Bae Craig, Son William, et al.Improved brightness of a FED with low-temperature carbon nanotubes [J].Digest of Technical Papers—2005 SID International Symposium, 2005, 36(2):1940-1943.
[4] Wang Qilong, Lei Wei, Zhang Xiaobing, et al.A novel gate structure in large diagonal size printable CNT-FED [J].Applied Surface Science, 2005, 239(3/4):458-463.
[5] Burden A P, Atkinson N, Baigrie S M, et al.Optimizing printable FEDs towards the standard for mass-market displays [J].Soc Inform Display, 2003, 11(2):317-324.
[6] Lee J, Jeong T, Yu S G, et al.Thickness effect on secondary electron emission of MgO layers [J].Applied Surface Science, 2001, 74(1):62-69.
[7] Wang Chengyu, Tao Ying.Disposal technology of glass surface [M].Xi’an:Chemical Industry Press, 2004:123-126.(in Chinese)
[8] Choi Y S, Cha S N, Jung S Y, et al.Analysis for charged spacers in FED [J].IEEE Trans on Electron Devices, 2000, 47(8):1673-1677.
[9] Lei Wei, Zhang Xiaobing, Zhou Xuedong, et al.Characteristics of a cold cathode electron source combined with secondary electron emission in a FED [J].Applied Surface Science, 2005, 251(1/2/3/4):170-176.

Memo

Memo:
Biographies: Chen Jing(1982—), female, graduate;Lei Wei(corresponding author), male, doctor, professor, lw@seu.edu.cn.
Last Update: 2007-06-20