Experimental and computational study of field emission characteristics from amorphous carbon single nanotips grown by carbon contamination. I. Experiments and computation

C. Edgcombe, U. Valdré
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引用次数: 41

Abstract

Abstract Some properties of electron field emitters based on various types of carbon are difficult to measure and are not well known. This is particularly true for amorphous carbon films, for nanotubes and for nanotips grown by carbon contamination in a scanning electron microscope. We show that by combining together experimental data (i.e. emitter geometry from electron microscopy observations, and field emission current and applied voltage measurements), numerically computed values of the electric field at the tip surface and the Fowler-Nordheim (F-N) equation, it is possible to estimate values of parameters such as the work function, the enhancement factor, the tip radius and the effective emitting area. The general applicability of this approach and corresponding results are emphasized. We also show that, when the experimental parameters that are known are superfluous in number (i.e. more than the minimum number needed), a discrepancy exists, firstly, between the value of the emitter radius worked out through the F-N equation and that derived from electron microscopy and, secondly, between the calculated work function and that independently obtained by Kelvin probe microscopy. Possible reasons for these discrepancies are put forward and discussed.
碳污染生长的非晶碳单纳米尖场发射特性的实验与计算研究。一、实验与计算
基于不同类型碳的电子场发射体的一些性质是难以测量和不为人所知的。在扫描电子显微镜下,对于非晶碳膜、纳米管和由碳污染生长的纳米尖尤其如此。我们表明,通过结合实验数据(即从电子显微镜观察到的发射器几何形状、场发射电流和施加电压测量)、尖端表面的数值计算电场值和Fowler-Nordheim (F-N)方程,可以估计出诸如功函数、增强因子、尖端半径和有效发射面积等参数的值。强调了这种方法的普遍适用性和相应的结果。我们还表明,当已知的实验参数在数量上是多余的(即超过所需的最小数量)时,首先,通过F-N方程计算出的发射器半径值与电子显微镜得出的值之间存在差异,其次,计算出的功函数与开尔文探针显微镜独立获得的功函数之间存在差异。提出并讨论了造成这些差异的可能原因。
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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