Field electron emission of nanorods of semiconductors of wide energy band gaps

2005 International Vacuum Nanoelectronics Conference Pub Date : 2005-07-10 DOI:10.1109/IVNC.2005.1619458
Zhibing Li, Weiliang Wang, S. Deng, N. Xu
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引用次数: 4

Abstract

It is shown that significant field emission from nanorods of wide band gap semiconductors is possible. The nanorod is assumed to have a thin surface layer containing a large number of localized states originating from defects. Taking SiC as an example, the electrostatic potential, charge distribution, conduction current, tunnelling current, and field enhancement are calculated. It is found that the field-induced insulator to semimetal transition is responsible for the efficient field emission from the nanorods and that field enhancement is not constant with applied fields but varies with the field and has a maximum.
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宽能带隙半导体纳米棒的场电子发射
结果表明,宽禁带半导体的纳米棒可以产生显著的场发射。假设纳米棒具有薄的表面层,其中包含大量源自缺陷的局域态。以SiC为例,计算了静电势、电荷分布、传导电流、隧穿电流和场增强。发现场致绝缘体到半金属的转变是纳米棒有效场发射的原因,场增强随外加场的变化而变化,并有一个最大值。
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2005 International Vacuum Nanoelectronics Conference
2005 International Vacuum Nanoelectronics Conference
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