研究单根硅纳米线的尺寸依赖性导电特性。

Investigating Size-Dependent Conductive Properties on Individual Si Nanowires.

作者信息

Hu X F, Li S J, Wang J, Jiang Z M, Yang X J

机构信息

State Key Laboratory of Surface Physics, Fudan University, Shanghai, 200433, China.

出版信息

Nanoscale Res Lett. 2020 Mar 2;15(1):52. doi: 10.1186/s11671-020-3277-3.

DOI:10.1186/s11671-020-3277-3

PMID:32124115

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7052096/

Abstract

Periodically ordered arrays of vertically aligned Si nanowires (Si NWs) are successfully fabricated by nanosphere lithography combined with metal-assisted chemical etching. By adjusting the etching time, both the nanowires' diameter and length can be well controlled. The conductive properties of such Si NWs and particularly their size dependence are investigated by conductive atomic force microscopy (CAFM) on individual nanowires. The results indicate that the conductance of Si NWs is greatly relevant to their diameter and length. Si NWs with smaller diameters and shorter lengths exhibit better conductive properties. Together with the I-V curve characterization, a possible mechanism is supposed with the viewpoint of size-dependent Schottky barrier height, which is further verified by the electrostatic force microscopy (EFM) measurements. This study also suggests that CAFM can act as an effective means to explore the size (or other parameters) dependence of conductive properties on individual nanostructures, which should be essential for both fabrication optimization and potential applications of nanostructures.

摘要

通过纳米球光刻技术结合金属辅助化学蚀刻，成功制备出了周期性排列的垂直取向硅纳米线（Si NWs）阵列。通过调整蚀刻时间，可以很好地控制纳米线的直径和长度。利用导电原子力显微镜（CAFM）对单根纳米线研究了此类Si NWs的导电特性，特别是其尺寸依赖性。结果表明，Si NWs的电导与其直径和长度密切相关。直径较小且长度较短的Si NWs表现出更好的导电性能。结合I-V曲线表征，从尺寸依赖的肖特基势垒高度的角度推测了一种可能的机制，该机制通过静电力显微镜（EFM）测量得到了进一步验证。这项研究还表明，CAFM可作为一种有效的手段来探索导电特性对单个纳米结构的尺寸（或其他参数）依赖性，这对于纳米结构的制造优化和潜在应用都至关重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c8a9/7052096/3eb027b2b2d0/11671_2020_3277_Fig1_HTML.jpg

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研究单根硅纳米线的尺寸依赖性导电特性。

Investigating Size-Dependent Conductive Properties on Individual Si Nanowires.

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