Three-Dimensional Nanofabrication Utilizing Selective Etching of Silicon Induced by Focused Ion Beam Irradiation

Jsme International Journal Series C-mechanical Systems Machine Elements and Manufacturing Pub Date : 2006-06-15 DOI:10.1299/JSMEC.49.583

N. Kawasegi, N. Morita, S. Yamada, N. Takano, T. Oyama, K. Ashida, J. Taniguchi, I. Miyamoto

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引用次数: 22

Abstract

A simple process of fabricating a three-dimensional nanostructure on a silicon surface was investigated in this study. The silicon surface area irradiated by focused ion beam (FIB) was selectively etched in HF, whereas the non-irradiated area was scarcely etched, and con-sequently, a concave nanostructure was fabricated on the irradiated area. To control the depth of the nanostructure, the depth dependence on ion irradiation parameters was investigated. As a result, it was found that the depth of the irradiated area can be controlled by changing ion irradiation parameters, such as dose and ion energy. Under a low-dose condition, the irradiated area was scarcely etched, due to the formation of an amorphous layer on the interior of silicon. Subsequently, it was etched in KOH to evaluate the mechanism of this phenomenon. In addition, the surface roughness dependence on ion irradiation parameters was investigated. Finally, three-dimensional nanostructures were fabricated on the basis of these results, suggesting that this method is a novel three-dimensional nanofabrication method.

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聚焦离子束辐照诱导硅选择性蚀刻的三维纳米加工

本文研究了一种在硅表面制备三维纳米结构的简单工艺。聚焦离子束辐照后的硅表面在HF中被选择性蚀刻，而未辐照的硅表面几乎没有被蚀刻，从而在辐照区形成凹形纳米结构。为了控制纳米结构的深度，研究了离子辐照参数对纳米结构深度的影响。结果发现，通过改变离子辐照参数，如剂量和离子能量，可以控制辐照区域的深度。在低剂量条件下，由于在硅的内部形成非晶层，辐照区几乎没有蚀刻。随后，将其蚀刻在KOH中以评估这一现象的机制。此外，还研究了离子辐照参数对表面粗糙度的影响。最后，在此基础上制备了三维纳米结构，表明该方法是一种新颖的三维纳米加工方法。

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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Jsme International Journal Series C-mechanical Systems Machine Elements and Manufacturing

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