Tunnelling Current Measurements Using Current Sensing Atomic Force Microscope
Arup Sarkar, K. A. Suresh
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引用次数: 0
Abstract
To realise the miniaturised devices, the precise measurement of nanoscale tunnelling current in ultrathin films is of utmost importance. For the nanoscale current measurements, current sensing atomic force microscope (CSAFM) is one of the most powerful tool. CSAFM allows to map the current distribution on the film surface and it permits to perform current measurements as a function of applied bias voltage. It has turned out to be crucial for studies of organic films. In CSAFM, a physical contact is made on film with a precise control of the applied force in nanonewton (nN) range. For the preparation of ultrathin film, Langmuir-Blodgett (LB) technique is known to provide a uniform film with a good control over the thickness in the molecular level. In the last two decades, there have been many CSAFM studies for the tunnelling current measurements. This review is intended to cover the literature on the tunnelling current measurements using CSAFM. Material Science Research India www.materialsciencejournal.org ISSN: 0973-3469, Vol.17, No.(1) 2020, Pg. 62-69 CONTACT Arup Sarkar arupsarkar.katwa@gmail.com Department of Physics, Indian Institute of Science Education & Research, Berhampur 760010, Odisha, India. © 2020 The Author(s). Published by Oriental Scientific Publishing Company This is an Open Access article licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License Doi: http://dx.doi.org/10.13005/msri/170109 Article History Received: 15 March 2020 Accepted: 10 April 2020
利用电流传感原子力显微镜测量隧道电流
为了实现器件的小型化,超薄薄膜中纳米级隧穿电流的精确测量至关重要。对于纳米尺度的电流测量,电流传感原子力显微镜(CSAFM)是最有力的工具之一。CSAFM允许映射电流分布在薄膜表面,它允许执行电流测量作为施加偏置电压的函数。事实证明,这对有机薄膜的研究至关重要。在CSAFM中,在纳米牛顿(nN)范围内精确控制作用力的情况下,在薄膜上进行物理接触。对于超薄膜的制备,已知Langmuir-Blodgett (LB)技术可以提供均匀的薄膜,并且在分子水平上对厚度有很好的控制。近二十年来,国内外对隧道电流测量进行了大量的CSAFM研究。本文综述了利用CSAFM测量隧道掘进电流的文献。印度材料科学研究www.materialsciencejournal.org ISSN: 0973-3469, Vol.17, No. 1, 2020, Pg. 62-69 CONTACT Arup Sarkar arupsarkar.katwa@gmail.com印度科学教育与研究学院物理系,Berhampur 760010, Odisha, India。©2020作者。这是一篇基于知识共享署名-非商业性-相同方式共享4.0国际许可协议的开放获取文章Doi: http://dx.doi.org/10.13005/msri/170109文章历史收稿日期:2020年3月15日接受日期:2020年4月10日
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