鲁棒可再生集成门控碳纳米管场发射阵列

Technical Digest of the 17th International Vacuum Nanoelectronics Conference (IEEE Cat. No.04TH8737) Pub Date : 2004-07-11 DOI:10.1109/IVNC.2004.1354981

D. Hsu, J. Shaw

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引用次数: 12

摘要

多壁碳纳米管(cNTs)在门控碳纳米管-硅柱和碳纳米管-开放结构中都被用于这项研究。当碳纳米管在氢气压力下工作时，特别是在碳纳米管被氧气污染后，可以观察到场发射电流的大幅增加。排放物降解很可能是由于表面被氧污染，并通过与氢原子反应而被去除。当阵列不发射时，将发射器暴露在氢分子或氧分子中，对气体移除后产生的发射没有影响，这表明纳米管对氢和氧的分子形式是惰性的，而由电子解离产生的原子形式与表面基团发生反应。对相对高压的氢的要求也表明原子氢是造成大的增强和再生效果的原因。从受污染的碳纳米管中再生辐射的能力可以延长发射极器件的使用寿命并节省成本。

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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Robust and regenerable integrally gated carbon nanotube field emitter arrays

Multiwalled carbon nanotubes (cNTs) in both the gated cNT-on-Si post and the cNT-in-open configurations were used in this study. Large increases in field emission current were observed when operating cNTs in substantial pressures of hydrogen, especially after the nanotubes have been contaminated with oxygen. Emission degradation was likely due to surface contamination with oxygen and was removed by reaction with hydrogen (atoms). Exposure of the emitters to molecular hydrogen or oxygen when the arrays are not emitting has no effect on the emission produced once the gases are removed, suggesting that the nanotubes are inert to the molecular forms of hydrogen and oxygen and that the atomic forms, which are created by electron dissociation, react with surface groups. The requirement for relatively high pressures of hydrogen also suggests that atomic hydrogen was responsible for the large enhancement and regeneration effects. The ability to regenerate emission from contaminated cNT can prolong emitter device lifetimes and save cost.

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

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