Automatic electron hologram acquisition of catalyst nanoparticles using particle detection with image processing and machine learning

Fumiaki Ichihashi; Akira Koyama; Tetsuya Akashi; Shoko Miyauchi; Ken'ichi Morooka; Hajime Hojo; Hisahiro Einaga; Yoshio Takahashi; Toshiaki Tanigaki; Hiroyuki Shinada; Yasukazu Murakami

doi:10.1063/5.0074231

Automatic electron hologram acquisition of catalyst nanoparticles using particle detection with image processing and machine learning

Fumiaki Ichihashi, Akira Koyama, Tetsuya Akashi, Shoko Miyauchi, Ken'ichi Morooka, Hajime Hojo, Hisahiro Einaga, Yoshio Takahashi, Toshiaki Tanigaki, Hiroyuki Shinada, Yasukazu Murakami

School of Engineering

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

To enable better statistical analysis of catalyst nanoparticles by high-resolution electron holography, we improved the particle detection accuracy of our previously developed automated hologram acquisition system by using an image classifier trained with machine learning. The detection accuracy of 83% was achieved with the small training data of just 232 images showing nanoparticles by utilizing transfer learning based on VGG16 to train the image classifier. Although the construction of training data generally requires much effort, the time needed to select the training data candidates was significantly shortened by utilizing a pattern matching technique. Experimental results showed that the high-resolution hologram acquisition efficiency was improved by factors of about 100 and 6 compared to a scan method and a pattern-matching-only method, respectively.

Original language	English
Article number	064103
Journal	Applied Physics Letters
Volume	120
Issue number	6
DOIs	https://doi.org/10.1063/5.0074231
Publication status	Published - Feb 7 2022

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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Ichihashi, F., Koyama, A., Akashi, T., Miyauchi, S., Morooka, K., Hojo, H., Einaga, H., Takahashi, Y., Tanigaki, T., Shinada, H., & Murakami, Y. (2022). Automatic electron hologram acquisition of catalyst nanoparticles using particle detection with image processing and machine learning. Applied Physics Letters, 120(6), Article 064103. https://doi.org/10.1063/5.0074231

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title = "Automatic electron hologram acquisition of catalyst nanoparticles using particle detection with image processing and machine learning",

abstract = "To enable better statistical analysis of catalyst nanoparticles by high-resolution electron holography, we improved the particle detection accuracy of our previously developed automated hologram acquisition system by using an image classifier trained with machine learning. The detection accuracy of 83% was achieved with the small training data of just 232 images showing nanoparticles by utilizing transfer learning based on VGG16 to train the image classifier. Although the construction of training data generally requires much effort, the time needed to select the training data candidates was significantly shortened by utilizing a pattern matching technique. Experimental results showed that the high-resolution hologram acquisition efficiency was improved by factors of about 100 and 6 compared to a scan method and a pattern-matching-only method, respectively.",

author = "Fumiaki Ichihashi and Akira Koyama and Tetsuya Akashi and Shoko Miyauchi and Ken'ichi Morooka and Hajime Hojo and Hisahiro Einaga and Yoshio Takahashi and Toshiaki Tanigaki and Hiroyuki Shinada and Yasukazu Murakami",

note = "Funding Information: This work was supported by JST CREST Grant No. JPMJCR 1664, Japan. A part of this work was supported by KAKENHI (No. JP18H03845) from the Japan Society for the Promotion of Science. The authors are grateful to Hiroaki Mogaki at Hitachi High-Tech Co. for his technical support with the microscope control software and to A. Sugawara at Hitachi, Ltd. for his collaboration and useful discussions. Publisher Copyright: {\textcopyright} 2022 Author(s).",

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doi = "10.1063/5.0074231",

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volume = "120",

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AU - Ichihashi, Fumiaki

AU - Koyama, Akira

AU - Akashi, Tetsuya

AU - Miyauchi, Shoko

AU - Morooka, Ken'ichi

AU - Hojo, Hajime

AU - Einaga, Hisahiro

AU - Takahashi, Yoshio

AU - Tanigaki, Toshiaki

AU - Shinada, Hiroyuki

AU - Murakami, Yasukazu

N1 - Funding Information: This work was supported by JST CREST Grant No. JPMJCR 1664, Japan. A part of this work was supported by KAKENHI (No. JP18H03845) from the Japan Society for the Promotion of Science. The authors are grateful to Hiroaki Mogaki at Hitachi High-Tech Co. for his technical support with the microscope control software and to A. Sugawara at Hitachi, Ltd. for his collaboration and useful discussions. Publisher Copyright: © 2022 Author(s).

PY - 2022/2/7

Y1 - 2022/2/7

N2 - To enable better statistical analysis of catalyst nanoparticles by high-resolution electron holography, we improved the particle detection accuracy of our previously developed automated hologram acquisition system by using an image classifier trained with machine learning. The detection accuracy of 83% was achieved with the small training data of just 232 images showing nanoparticles by utilizing transfer learning based on VGG16 to train the image classifier. Although the construction of training data generally requires much effort, the time needed to select the training data candidates was significantly shortened by utilizing a pattern matching technique. Experimental results showed that the high-resolution hologram acquisition efficiency was improved by factors of about 100 and 6 compared to a scan method and a pattern-matching-only method, respectively.

AB - To enable better statistical analysis of catalyst nanoparticles by high-resolution electron holography, we improved the particle detection accuracy of our previously developed automated hologram acquisition system by using an image classifier trained with machine learning. The detection accuracy of 83% was achieved with the small training data of just 232 images showing nanoparticles by utilizing transfer learning based on VGG16 to train the image classifier. Although the construction of training data generally requires much effort, the time needed to select the training data candidates was significantly shortened by utilizing a pattern matching technique. Experimental results showed that the high-resolution hologram acquisition efficiency was improved by factors of about 100 and 6 compared to a scan method and a pattern-matching-only method, respectively.

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Automatic electron hologram acquisition of catalyst nanoparticles using particle detection with image processing and machine learning

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