Two-axis MEMS-based force sensor for measuring the interaction forces during the sliding of a droplet on a micropillar array

Nguyen Thanh-Vinh; Hidetoshi Takahashi; Kiyoshi Matsumoto; Isao Shimoyama

doi:10.1016/j.sna.2014.09.015

Two-axis MEMS-based force sensor for measuring the interaction forces during the sliding of a droplet on a micropillar array

Nguyen Thanh-Vinh, Hidetoshi Takahashi, Kiyoshi Matsumoto, Isao Shimoyama

研究成果: Article › 査読

19 被引用数 (Scopus)

抄録

Abstract In this paper, we proposed a 2-axis MEMS-based force sensor to directly measure the interaction forces during the sliding of a water droplet on a superhydrophobic surface with a micropillar array. In our sensor design, a 300-nm-thick silicon (Si) structure was fabricated beneath a single micrometer-sized pillar as the sensing element. Two piezoresistors were formed at the root of two opposite Si beams to detect the forces acting on the pillar surface in the normal and shear directions. The proposed sensor has a sensing resolution of less than 20 nN for both normal and shear forces. This resolution is confirmed to be sufficient to measure the forces of a droplet acting on a micropillar. The fabricated sensor was demonstrated to be able to measure the interaction forces during the sliding of a 7.5 μL water droplet on the micropillar array.

本文言語	English
論文番号	8900
ページ（範囲）	35-43
ページ数	9
ジャーナル	Sensors and Actuators, A: Physical
巻	231
DOI	https://doi.org/10.1016/j.sna.2014.09.015
出版ステータス	Published - 2015 8月 11
外部発表	はい

ASJC Scopus subject areas

電子材料、光学材料、および磁性材料
器械工学
凝縮系物理学
表面、皮膜および薄膜
金属および合金
電子工学および電気工学

文献へのアクセス

10.1016/j.sna.2014.09.015

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引用スタイル

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abstract = "Abstract In this paper, we proposed a 2-axis MEMS-based force sensor to directly measure the interaction forces during the sliding of a water droplet on a superhydrophobic surface with a micropillar array. In our sensor design, a 300-nm-thick silicon (Si) structure was fabricated beneath a single micrometer-sized pillar as the sensing element. Two piezoresistors were formed at the root of two opposite Si beams to detect the forces acting on the pillar surface in the normal and shear directions. The proposed sensor has a sensing resolution of less than 20 nN for both normal and shear forces. This resolution is confirmed to be sufficient to measure the forces of a droplet acting on a micropillar. The fabricated sensor was demonstrated to be able to measure the interaction forces during the sliding of a 7.5 μL water droplet on the micropillar array.",

keywords = "Droplet, Force sensor, MEMS, Micropillar array, Sliding, Superhydrophobic",

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AU - Shimoyama, Isao

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N2 - Abstract In this paper, we proposed a 2-axis MEMS-based force sensor to directly measure the interaction forces during the sliding of a water droplet on a superhydrophobic surface with a micropillar array. In our sensor design, a 300-nm-thick silicon (Si) structure was fabricated beneath a single micrometer-sized pillar as the sensing element. Two piezoresistors were formed at the root of two opposite Si beams to detect the forces acting on the pillar surface in the normal and shear directions. The proposed sensor has a sensing resolution of less than 20 nN for both normal and shear forces. This resolution is confirmed to be sufficient to measure the forces of a droplet acting on a micropillar. The fabricated sensor was demonstrated to be able to measure the interaction forces during the sliding of a 7.5 μL water droplet on the micropillar array.

AB - Abstract In this paper, we proposed a 2-axis MEMS-based force sensor to directly measure the interaction forces during the sliding of a water droplet on a superhydrophobic surface with a micropillar array. In our sensor design, a 300-nm-thick silicon (Si) structure was fabricated beneath a single micrometer-sized pillar as the sensing element. Two piezoresistors were formed at the root of two opposite Si beams to detect the forces acting on the pillar surface in the normal and shear directions. The proposed sensor has a sensing resolution of less than 20 nN for both normal and shear forces. This resolution is confirmed to be sufficient to measure the forces of a droplet acting on a micropillar. The fabricated sensor was demonstrated to be able to measure the interaction forces during the sliding of a 7.5 μL water droplet on the micropillar array.

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KW - Micropillar array

KW - Sliding

KW - Superhydrophobic

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