Optimization of electron field emission from carbon nanotube paste

Technical Digest of the 17th International Vacuum Nanoelectronics Conference (IEEE Cat. No.04TH8737) Pub Date : 2004-07-11 DOI:10.1109/IVNC.2004.1354999

Y. Kim, K. Sohn, Y. Cho, E. Yoo

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引用次数: 9

Abstract

Photosensitive organic binder was mixed with well-dispersed arc discharged single-walled carbon nanotubes (CNTs). The CNT-paste was screen-printed on the Cr-patterned glass substrate. Following back-side UV exposure, binder burn-out processes were carried out for accurate and fine patterning of paste. Emission images were obtained from a cathode successively: (a) as-prepared, (b) just after rubber-roll treatment and (c) after multiple I-V cycling. Improvement of emission properties with I-V cycling was observed from scanning electron micrographs (SEM) and I-V curves. The morphology of printed-CNTs was remarkably changed after I-V cycling. Parallel alignment of CNTs to the field direction become permanent after multiple field emission cycles. The field emission threshold was about 2.5 V/spl middot//spl mu/m/sup -1/ for the first measurement. In the successive emission cycles, the threshold fields decreased gradually to 1.9 V/spl middot//spl mu/m/sup -1/ for the final 13/sup th/ cycle. From the corresponding Fowler-Nordheim plots, the field enhancement factor (/spl beta/) of each line was evaluated. The average /spl beta/ values monotonically increased (from 1366 to 2120) with field emission repetition, which again confirmed the gradual vertical alignment of CNTs by multiple I-V cycles.

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碳纳米管浆料的电子场发射优化

将光敏有机粘合剂与分散良好的电弧放电单壁碳纳米管(CNTs)混合。碳纳米管浆料丝网印刷在铬图案玻璃基板上。在背面UV曝光后，粘合剂燃烧过程进行了准确和精细的粘贴图案。从阴极上依次获得:(a)制备后的发射图像，(b)刚经过胶辊处理后的发射图像，(c)多次I-V循环后的发射图像。通过扫描电镜(SEM)和I-V曲线观察到I-V循环对发射性能的改善。I-V循环后，cnts的形貌发生了显著变化。经过多次场发射循环后，碳纳米管与场方向的平行排列成为永久性的。第一次测量的场发射阈值约为2.5 V/spl middot//spl mu/m/sup -1/。在连续发射周期中，阈值场逐渐减小至1.9 V/spl middot//spl mu/m/sup -1/。从相应的Fowler-Nordheim图中，评估每个品系的田间增强因子(/spl beta/)。随着场发射的重复，平均/spl β /值单调增加(从1366增加到2120)，这再次证实了多次I-V循环使CNTs逐渐垂直排列。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Technical Digest of the 17th International Vacuum Nanoelectronics Conference (IEEE Cat. No.04TH8737)

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