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Enhanced Field Emission from Printed Carbon Nanotubes by Hard Hairbrush 被引量:2

Enhanced Field Emission from Printed Carbon Nanotubes by Hard Hairbrush
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摘要 A method, the morphology of screen printed carbon nanotube pastes is modified using a hard hairbrush, is presented. In this way, the organic matrix material is preferentially removed. Compared to those untreated films, the turn-on electric field of the treated film decreases from 2.2V/μm to 1.6V/μm, while the total emission current of the treated increases from 0.6mA/cm2 to 3mA/cm2, and uniform emission site density image has also been observed. A method, the morphology of screen printed carbon nanotube pastes is modified using a hard hairbrush, is presented. In this way, the organic matrix material is preferentially removed. Compared to those untreated films, the turn-on electric field of the treated film decreases from 2.2V/μm to 1.6V/μm, while the total emission current of the treated increases from 0.6mA/cm2 to 3mA/cm2, and uniform emission site density image has also been observed.
作者 邹儒佳 詹亚歌 刘洋 薛绍林
机构地区 Department of Applied Physics
出处 《Journal of Donghua University(English Edition)》 EI CAS 2008年第6期612-615,共4页 东华大学学报(英文版)
关键词 carbon nanotube screen printing hard hairbrush field emission 碳纳米管 场发射 印制 丝网印刷 基质材料 开启电场 排放量 电影
分类号 TN304.9 [电子电信—物理电子学] TB383 [一般工业技术—材料科学与工程]
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参考文献10

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同被引文献22

  • 1Cho 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.
  • 2Kim J P, Noh Y R, Kim J U, et al. Electron-Emission Properties of Carbon Nanotube Micro-tips Coated by Amorphous Carbon Nitride Films [J]. Thin Solid Films, 2011,519(22) : 7899-7903.
  • 3Bae J, Jang J. Fabrication of Carbon Nanotubes from Conducting Polymer Precursor as Field Emitter [J]. Journal of Industrial and Engineering Chemistry, 2012, 18(6): 1921-1924.
  • 4Tan K H, Ahmad R, Leo B F, et al. Physico-Chemical Studies of Amorphous Carbon Nanotubes Synthesized at Low Temperature [ J]. Materials Research Bulletin, 2012, 47(8) : 1849-1854.
  • 5Cheng T C. Effect of Nitrogen and Hydrogen on the Growth of MultiwaU Carbon Nanotubes on Flexible Carbon Cloth Using Thermal Chemical Vapor Deposition [ J ]. Materials Chemistry and Physics, 2012, 136(1): 140-14,5.
  • 6Rana K, Kueukayan-Dogu G, Bengu E. Growth of Vertically Aligned Carbon Nanotubes over Self-ordered Nano-Porous Alumina Films and Their Surface Properties [ J]. Applied Surface Science, 2012, 258( 18): 7112-7117.
  • 7Patole S P, Kim H, Jung J H, et al. The Synthesis of Vertically- Aligned Carbon Nanotubes on an Aluminum Foil Laminated on Stainless Steel [J]. Carbon, 2011, 49(11) : 3522-3528.
  • 8Hojati-Talemi P, Simon G P. Enhancement of Field Emission of Carbon Nanotubes Using a Simple Microwave Plasma Method [J]. Carbon, 2011,49(2) : 484-486.
  • 9Neupane S, Lastres M, Chiarella M, et al. Synthesis and Field Emission Properties of Vertically Aligned Carbon Nanotube Arrays on Copper [J]. Carbon, 2012, 50(7) : 2641-2650.
  • 10Sekiguchi K, Furuichi K, Shiratori Y, et aL One Second Growth of Carbon Nanotube Arrays on a Glass Substrate by Pulsed-Current Heating [J]. Carbon, 2012, 50(6) : 2110-2118.

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Journal of Donghua University(English Edition)
2008年 第6期

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