Fabrication of germanium nanodisk array by neutral beam etching with protein as etching mask

Takuya Fujii; Takeru Okada; Taiga Isoda; Mohd Erman Syazwan; Mohamed Tahar Chentir; Kohei M. Itoh; Ichiro Yamashita; Seiji Samukawa

doi:10.1116/1.4976524

Fabrication of germanium nanodisk array by neutral beam etching with protein as etching mask

Takuya Fujii, Takeru Okada, Taiga Isoda, Mohd Erman Syazwan, Mohamed Tahar Chentir, Kohei M. Itoh, Ichiro Yamashita, Seiji Samukawa

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研究成果: Article › 査読

2 被引用数 (Scopus)

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A uniform 10 nm diameter Ge two-dimensional (2D) nanodisk array structure was fabricated using iron oxide cores in a 2D closed-packed array of cage shaped proteins, ferritins, as an etching mask. Thin Ge layer on Si substrate was protected by a-Si capping layer and etched, which eliminated an uncontrollable factor of Ge native oxide. The density of Ge nanodisks was as high as 5.8 × 10¹¹cm⁻², and the center-to-center distance was estimated to be 14 nm. It was demonstrated that a quantum confinement effect can be obtained with our fabricated Ge nanodisk array by controlling the nanodisk thickness. The obtained high density Ge nanodisk is promising for Ge/Si quantum dot intermediate band solar cells and other photonics devices.

本文言語	English
論文番号	021801
ジャーナル	Journal of Vacuum Science and Technology B: Nanotechnology and Microelectronics
巻	35
号	2
DOI	https://doi.org/10.1116/1.4976524
出版ステータス	Published - 2017 3月 1

ASJC Scopus subject areas

電子材料、光学材料、および磁性材料
器械工学
プロセス化学およびプロセス工学
表面、皮膜および薄膜
電子工学および電気工学
材料化学

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title = "Fabrication of germanium nanodisk array by neutral beam etching with protein as etching mask",

abstract = "A uniform 10 nm diameter Ge two-dimensional (2D) nanodisk array structure was fabricated using iron oxide cores in a 2D closed-packed array of cage shaped proteins, ferritins, as an etching mask. Thin Ge layer on Si substrate was protected by a-Si capping layer and etched, which eliminated an uncontrollable factor of Ge native oxide. The density of Ge nanodisks was as high as 5.8 × 1011cm−2, and the center-to-center distance was estimated to be 14 nm. It was demonstrated that a quantum confinement effect can be obtained with our fabricated Ge nanodisk array by controlling the nanodisk thickness. The obtained high density Ge nanodisk is promising for Ge/Si quantum dot intermediate band solar cells and other photonics devices.",

author = "Takuya Fujii and Takeru Okada and Taiga Isoda and Syazwan, {Mohd Erman} and Chentir, {Mohamed Tahar} and Itoh, {Kohei M.} and Ichiro Yamashita and Seiji Samukawa",

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T1 - Fabrication of germanium nanodisk array by neutral beam etching with protein as etching mask

AU - Fujii, Takuya

AU - Okada, Takeru

AU - Isoda, Taiga

AU - Syazwan, Mohd Erman

AU - Chentir, Mohamed Tahar

AU - Itoh, Kohei M.

AU - Yamashita, Ichiro

AU - Samukawa, Seiji

PY - 2017/3/1

Y1 - 2017/3/1

N2 - A uniform 10 nm diameter Ge two-dimensional (2D) nanodisk array structure was fabricated using iron oxide cores in a 2D closed-packed array of cage shaped proteins, ferritins, as an etching mask. Thin Ge layer on Si substrate was protected by a-Si capping layer and etched, which eliminated an uncontrollable factor of Ge native oxide. The density of Ge nanodisks was as high as 5.8 × 1011cm−2, and the center-to-center distance was estimated to be 14 nm. It was demonstrated that a quantum confinement effect can be obtained with our fabricated Ge nanodisk array by controlling the nanodisk thickness. The obtained high density Ge nanodisk is promising for Ge/Si quantum dot intermediate band solar cells and other photonics devices.

AB - A uniform 10 nm diameter Ge two-dimensional (2D) nanodisk array structure was fabricated using iron oxide cores in a 2D closed-packed array of cage shaped proteins, ferritins, as an etching mask. Thin Ge layer on Si substrate was protected by a-Si capping layer and etched, which eliminated an uncontrollable factor of Ge native oxide. The density of Ge nanodisks was as high as 5.8 × 1011cm−2, and the center-to-center distance was estimated to be 14 nm. It was demonstrated that a quantum confinement effect can be obtained with our fabricated Ge nanodisk array by controlling the nanodisk thickness. The obtained high density Ge nanodisk is promising for Ge/Si quantum dot intermediate band solar cells and other photonics devices.

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Fabrication of germanium nanodisk array by neutral beam etching with protein as etching mask

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