Research on the Characteristic and Mechanism of Field Emission from Metal-Substrate Graphene Contact

Ziru Zha, Senkun Mei, Zhipeng Zhou, Zhenxing Wang, Zhiyuan Liu
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Abstract

Vacuum trigger switch is a widely used equipment in a wide voltage range, and recently researchers cover the conventional metal contacts with two-dimensional material trying to enhance the performance of the trigger switch. However, the characteristic and the mechanism of the field emission from metal-substrate two-dimensional material haven't been researched precisely. Besides, an agreement has not been reached whether the emission process of two-dimensional material follows the traditional Fowler-Nordheim theory or Murphy-Good theory or not. Confronted with these problems, we established an experimental system which can measure the current as low as Pico ampere. Furthermore, Advanced Performance Detector (PHOTONIS) which is composed of a high-gain microchannel plate connected with a phosphor screen is also used to capture the electron emission image to reveal the feature of emission process before breakdown. The results show that there exists a step effect in the V-I curve of the emission process of graphene which deviates from the FN theory. Besides, a hysteresis effect also occurs in the V-I characteristic of graphene. In order to illustrate this phenomenon, we proposed a qualitative model that the free electrons are first transferred to the $\mathrm{p}_{\mathrm{z}}$ orbital of carbon atom of graphene from metal substrate under the applied voltage. And with the applied voltage increasing, electrons will be released to the vacuum after the $\mathrm{p}_{\mathrm{z}}$ orbital of the carbon atom is all filled. This model explains the step effect pretty well but is invalid for hysteresis effect and thus need to be further improved. And we believed that our model and experimental results are surely to be helpful for later researchers and to enhance the performance of the vacuum trigger switch in the future.
金属-衬底石墨烯接触场发射特性及机理研究
真空触发开关是一种广泛应用于宽电压范围的设备,近年来研究人员试图用二维材料覆盖传统的金属触点来提高触发开关的性能。然而,金属-衬底二维材料的场发射特性及其机理尚未得到精确的研究。此外,二维材料的发射过程是否遵循传统的Fowler-Nordheim理论或Murphy-Good理论尚未达成一致。针对这些问题,我们建立了一个可以测量低至皮安电流的实验系统。利用高增益微通道板连接荧光粉屏组成的先进性能检测器(PHOTONIS)捕获击穿前的电子发射图像,揭示击穿前的发射过程特征。结果表明,石墨烯发射过程的V-I曲线存在步进效应,偏离了FN理论。此外,石墨烯的V-I特性也存在滞后效应。为了说明这一现象,我们提出了一个定性模型,即在施加电压的作用下,自由电子首先从金属衬底转移到石墨烯碳原子的$\ mathm {p}_{\ mathm {z}}$轨道。随着外加电压的增加,碳原子的$\ mathm {p}_{\ mathm {z}}$轨道被填满后,电子将被释放到真空中。该模型较好地解释了阶跃效应,但对滞后效应不适用,需要进一步改进。我们相信我们的模型和实验结果对以后的研究和提高真空触发开关的性能有一定的帮助。
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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