Electron field emission from carbon nanotubes in atmospheric pressure Ar gas

Plasma Devices and Operations Pub Date : 2009-02-20 DOI:10.1080/10519990802703434
Q. Zou, Mingzhi Wang, A. Hatta
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引用次数: 3

Abstract

Electron field emission (FE) from carbon nanotubes (CNTs) in atmospheric pressure Ar gas was measured. The FE measurements were carried out using a needle for anode and a CNT specimen for cathode. The FE current usually appeared at several hundred volts at applied voltage to the anode at the gap length from 15 to 100 μm. When the applied voltage was lower than a conventional gas breakdown voltage around 300 V, the FE in Ar gas was stable and reproducible even at atmospheric pressure. There was no damage on the surface of CNT cathode in SEM observation after the FE operation in Ar gas. When the applied voltage was increased to more than the gas breakdown voltage, a conventional gas discharge took place resulting in destroying the CNT cathode surface.
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常压氩气中碳纳米管的电子场发射
研究了常压氩气中碳纳米管的电子场发射(FE)。FE测量采用针为阳极,碳纳米管样品为阴极。在15 ~ 100 μm的间隙范围内,施加在阳极上的电流通常为几百伏。当施加电压低于常规气体击穿电压约300 V时,即使在常压下,氩气中的FE也稳定且可重现。氩气中FE处理后的碳纳米管阴极表面未见损伤。当施加电压增加到大于气体击穿电压时,发生常规气体放电,导致碳纳米管阴极表面破坏。
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Plasma Devices and Operations
Plasma Devices and Operations 物理-核科学技术
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