增强碳纳米管场发射性能的沟槽形冷阴极制作
王凤歌, 李玉魁, 卢文科. 增强碳纳米管场发射性能的沟槽形冷阴极制作[J]. 光子学报, 2014, 43(4): 0423001.
WANG Feng-ge, LI Yu-kui, LU Wen-ke. Fabrication of Groove Shape Cold Cathode for Enhancing Field Emission Properties of Carbon Nanotube[J]. ACTA PHOTONICA SINICA, 2014, 43(4): 0423001.
[1] HOJATI-TALEMI P, KANNAN A G, SIMON G P. Fusion of carbon nanotubes for fabrication of field emission cathodes[J]. Carbon, 2012, 50(2): 356-361.
[2] MATHUR A, ROY S S, HAZRA K S, et al. Oxygen plasma assisted end-opening and field emission enhancement in vertically aligned multiwall carbon nanotubes [J]. Materials Chemistry and Physics, 2012, 134(1): 425-429.
[3] WU H C, YOUH M J, LIN W H, et al. Fabrication of double-sided field-emission lights sources using a mixture of carbon nanotubes and phosphor sandwiched between two electrode layers[J]. Carbon, 2012, 50(13): 4781-4786.
[4] LEE S F, CHANG Y P, LEE L Y. Synthesis of carbon nanotubes on silicon nanowires by thermal chemical vapor deposition[J]. New Carbon Materials, 2011, 26(6): 401-407.
[5] CHO W S, LEE Y D, CHOI J, et al. Effects on the field emission properties by variation in surface morphology of patterned photosensitive carbon nanotube paste using organic solvent[J]. Applied Surface Science, 2011, 257(6): 2250-2253.
[6] BAE N Y, BAE W M, HA A N, et al. Low-voltage driven carbon nanotube field emission lamp[J]. Current Applied Physics, 2011, 11(4): S86-S89.
[7] WANG F H, LIN T C, TZENG S D, et al. Field emission properties of carbon nanotube cathodes produced using composite plating[J]. Applied Surface Science, 2010, 256(24): 7600-7605.
[8] JUNG H, AN S Y, JANG D M, et al. A multi-wall carbon nanotubes/ polymethyl methacrylate composite for use in field emitters on flexible substrates[J]. Carbon, 2012, 50(3): 987-993.
[10] LEE H, GOAK J, CHOI J, et al. High-current field emission of point-type carbon nanotube emitters on Ni-coated metal wires[J]. Carbon, 2012, 50(6): 2126-2133.
[11] KUZNETZOV A A, LEE S B, ZHANG M, et al. Electron field emission from transparent multiwalled carbon nanotube sheets for inverted field emission displays[J]. Carbon, 2010, 48(1): 41-46.
[12] SRIVIDYA S, GAUTAM S, JHA P, et al. Titanium buffer layer for improved field emission of CNT based cold cathode[J]. Applied Surface Science, 2010, 256(11): 3563-3566.
[13] YUGE R, TOYAMA K, LCHIHASHI T, et al. Characterization and field emission properties of multi-walled carbon nanotubes with fine crystallinity prepared by CO2 laser ablation[J]. Applied Surface Science, 2012, 258(18): 6958-6962.
[14] LIM S C, CHOI Y C. Preserving long-term emission stability of carbon nanotube field emitter using aluminum layer[J]. Current Applied Physics, 2010, 10(3): 889-892.
[15] DARBARI S, ABDI Y, MOHAJERZADEH S, et al. High electron emission from branched tree-like carbon nanotubes suitable for field emission applications[J]. Carbon, 2010, 48(9): 2493-2500.
[16] JANG H S, JEON S K, NAHM S H. Field emission properties from the tip and side of multi-walled carbon nanotube yarns[J]. Carbon, 2010, 48(14): 4019-4023.
[18] UH H S, PARK S, KIM B. Enhanced field emission properties from titanium-coated carbon nanotubes[J]. Diamond and Related Materials, 2010, 19(5-6): 586-589.
王凤歌, 李玉魁, 卢文科. 增强碳纳米管场发射性能的沟槽形冷阴极制作[J]. 光子学报, 2014, 43(4): 0423001. WANG Feng-ge, LI Yu-kui, LU Wen-ke. Fabrication of Groove Shape Cold Cathode for Enhancing Field Emission Properties of Carbon Nanotube[J]. ACTA PHOTONICA SINICA, 2014, 43(4): 0423001.