Simple and Rapid Fabrication Process of Porous Silicon Surface Using Inductively Coupled Plasma Reactive Ion Etching

T. Sugaya; D. H. Yoon; H. Yamazaki; K. Nakanishi; T. Sekiguchi; S. Shoji

doi:10.1109/JMEMS.2019.2952209

Simple and Rapid Fabrication Process of Porous Silicon Surface Using Inductively Coupled Plasma Reactive Ion Etching

T. Sugaya^*, D. H. Yoon, H. Yamazaki, K. Nakanishi, T. Sekiguchi, S. Shoji

^*この研究の対応する著者

研究成果: Article › 査読

2 被引用数 (Scopus)

抄録

In this study, the simple and rapid formation of porous silicon on a pillar array structure using inductively coupled plasma reactive ion etching (ICP-RIE) is realized. This method can render the outermost surface porous without using an additional etching or deposition apparatus because the same equipment is used to form the structure. As a basic experiment, we attempted to etch the structure by considerably varying three parameters (bias power, chamber pressure, and gas flow rate) in ICP-RIE. The etching step condition was determined for the porous structure from the result. Furthermore, we obtained a porous pillar surface while almost maintaining the structure by performing multicycle etching and an additional passivation step. A number of pores (diameter: 100 nm) were formed randomly on the side wall of the pillar array using the proposed method. Compared with original pillar, the surface roughness of porous pillar increased by 48%. [2019-0216].

本文言語	English
論文番号	8910376
ページ（範囲）	62-67
ページ数	6
ジャーナル	Journal of Microelectromechanical Systems
巻	29
号	1
DOI	https://doi.org/10.1109/JMEMS.2019.2952209
出版ステータス	Published - 2020 2月

ASJC Scopus subject areas

機械工学
電子工学および電気工学

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10.1109/JMEMS.2019.2952209

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title = "Simple and Rapid Fabrication Process of Porous Silicon Surface Using Inductively Coupled Plasma Reactive Ion Etching",

abstract = "In this study, the simple and rapid formation of porous silicon on a pillar array structure using inductively coupled plasma reactive ion etching (ICP-RIE) is realized. This method can render the outermost surface porous without using an additional etching or deposition apparatus because the same equipment is used to form the structure. As a basic experiment, we attempted to etch the structure by considerably varying three parameters (bias power, chamber pressure, and gas flow rate) in ICP-RIE. The etching step condition was determined for the porous structure from the result. Furthermore, we obtained a porous pillar surface while almost maintaining the structure by performing multicycle etching and an additional passivation step. A number of pores (diameter: 100 nm) were formed randomly on the side wall of the pillar array using the proposed method. Compared with original pillar, the surface roughness of porous pillar increased by 48%. [2019-0216].",

keywords = "Etching, microstructure, nanoporous materials, silicon",

author = "T. Sugaya and Yoon, {D. H.} and H. Yamazaki and K. Nakanishi and T. Sekiguchi and S. Shoji",

note = "Funding Information: Manuscript received September 26, 2019; revised October 29, 2019; accepted October 29, 2019. Date of publication November 22, 2019; date of current version February 3, 2020. This work was supported in part by the Japan Ministry of Education, Culture, Sports Science and Technology (MEXT) Grant-in-Aid for Scientific Basic Research (A) under Grant 16H02349, in part by Canon Medical Systems Corporation, and in part by the MEXT Nanotechnology Platform Support Project of Waseda University. Subject Editor P. M. Sarro. (Corresponding author: T. Sugaya.) T. Sugaya, H. Yamazaki, K. Nakanishi, and S. Shoji are with the Department of Electronic and Physical Systems, Waseda University, Tokyo 169-8555, Japan (e-mail: sugaya@shoji.comm. waseda.ac.jp; y.hayate19920316@gmail.com; 40_colors@toki.waseda.jp; shojis@waseda.jp). Publisher Copyright: {\textcopyright} 1992-2012 IEEE.",

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AU - Nakanishi, K.

AU - Sekiguchi, T.

AU - Shoji, S.

N1 - Funding Information: Manuscript received September 26, 2019; revised October 29, 2019; accepted October 29, 2019. Date of publication November 22, 2019; date of current version February 3, 2020. This work was supported in part by the Japan Ministry of Education, Culture, Sports Science and Technology (MEXT) Grant-in-Aid for Scientific Basic Research (A) under Grant 16H02349, in part by Canon Medical Systems Corporation, and in part by the MEXT Nanotechnology Platform Support Project of Waseda University. Subject Editor P. M. Sarro. (Corresponding author: T. Sugaya.) T. Sugaya, H. Yamazaki, K. Nakanishi, and S. Shoji are with the Department of Electronic and Physical Systems, Waseda University, Tokyo 169-8555, Japan (e-mail: sugaya@shoji.comm. waseda.ac.jp; y.hayate19920316@gmail.com; 40_colors@toki.waseda.jp; shojis@waseda.jp). Publisher Copyright: © 1992-2012 IEEE.

PY - 2020/2

Y1 - 2020/2

N2 - In this study, the simple and rapid formation of porous silicon on a pillar array structure using inductively coupled plasma reactive ion etching (ICP-RIE) is realized. This method can render the outermost surface porous without using an additional etching or deposition apparatus because the same equipment is used to form the structure. As a basic experiment, we attempted to etch the structure by considerably varying three parameters (bias power, chamber pressure, and gas flow rate) in ICP-RIE. The etching step condition was determined for the porous structure from the result. Furthermore, we obtained a porous pillar surface while almost maintaining the structure by performing multicycle etching and an additional passivation step. A number of pores (diameter: 100 nm) were formed randomly on the side wall of the pillar array using the proposed method. Compared with original pillar, the surface roughness of porous pillar increased by 48%. [2019-0216].

AB - In this study, the simple and rapid formation of porous silicon on a pillar array structure using inductively coupled plasma reactive ion etching (ICP-RIE) is realized. This method can render the outermost surface porous without using an additional etching or deposition apparatus because the same equipment is used to form the structure. As a basic experiment, we attempted to etch the structure by considerably varying three parameters (bias power, chamber pressure, and gas flow rate) in ICP-RIE. The etching step condition was determined for the porous structure from the result. Furthermore, we obtained a porous pillar surface while almost maintaining the structure by performing multicycle etching and an additional passivation step. A number of pores (diameter: 100 nm) were formed randomly on the side wall of the pillar array using the proposed method. Compared with original pillar, the surface roughness of porous pillar increased by 48%. [2019-0216].

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Simple and Rapid Fabrication Process of Porous Silicon Surface Using Inductively Coupled Plasma Reactive Ion Etching

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