Open-source controller for low-cost and high-speed atomic force microscopy imaging of skin corneocyte nanotextures

Hsien Shun Liao; Imtisal Akhtar; Christian Werner; Roman Slipets; Jorge Pereda; Jen Hung Wang; Ellen Raun; Laura Olga Nørgaard; Frederikke Elisabet Dons; Edwin En Te Hwu

doi:10.1016/j.ohx.2022.e00341

Open-source controller for low-cost and high-speed atomic force microscopy imaging of skin corneocyte nanotextures

Hsien Shun Liao, Imtisal Akhtar, Christian Werner, Roman Slipets, Jorge Pereda, Jen Hung Wang, Ellen Raun, Laura Olga Nørgaard, Frederikke Elisabet Dons, Edwin En Te Hwu^*

^*Corresponding author for this work

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Abstract

High-speed atomic force microscopes (HS-AFMs) with high temporal resolution enable dynamic phenomena to be visualized at nanoscale resolution. However, HS-AFMs are more complex and costlier than conventional AFMs, and particulars of an open-source HS-AFM controller have not been published before. These high entry barriers hinder the popularization of HS-AFMs in both academic and industrial applications. In addition, HS-AFMs generally have a small imaging area that limits the fields of implementation. This study presents an open-source controller that enables a low-cost simplified AFM to achieve a maximum tip-sample velocity of 5,093 µm/s (9.3 s/frame, 512 × 512 pixels), which is nearly 100 times higher than that of the original controller. Moreover, the proposed controller doubles the imaging area to 46.3 × 46.3 µm² compared to that of the original system. The low-cost HS-AFM can successfully assess the severity of atopic dermatitis (AD) by measuring the nanotexture of human skin corneocytes in constant height DC mode. The open-source controller-based HS-AFM system costs less than $4,000, which provides resource-limited research institutes with affordable access to high-throughput nanoscale imaging to further expand the HS-AFM research community.

Original language	English
Article number	e00341
Journal	HardwareX
Volume	12
Number of pages	14
ISSN	2468-0672
DOIs	https://doi.org/10.1016/j.ohx.2022.e00341
Publication status	Published - 2022

Keywords

Corneocyte
High-speed atomic force microscopy
Nanotexture
Sinusoidal scanning
Skin barrier function

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title = "Open-source controller for low-cost and high-speed atomic force microscopy imaging of skin corneocyte nanotextures",

abstract = "High-speed atomic force microscopes (HS-AFMs) with high temporal resolution enable dynamic phenomena to be visualized at nanoscale resolution. However, HS-AFMs are more complex and costlier than conventional AFMs, and particulars of an open-source HS-AFM controller have not been published before. These high entry barriers hinder the popularization of HS-AFMs in both academic and industrial applications. In addition, HS-AFMs generally have a small imaging area that limits the fields of implementation. This study presents an open-source controller that enables a low-cost simplified AFM to achieve a maximum tip-sample velocity of 5,093 µm/s (9.3 s/frame, 512 × 512 pixels), which is nearly 100 times higher than that of the original controller. Moreover, the proposed controller doubles the imaging area to 46.3 × 46.3 µm2 compared to that of the original system. The low-cost HS-AFM can successfully assess the severity of atopic dermatitis (AD) by measuring the nanotexture of human skin corneocytes in constant height DC mode. The open-source controller-based HS-AFM system costs less than \$4,000, which provides resource-limited research institutes with affordable access to high-throughput nanoscale imaging to further expand the HS-AFM research community.",

keywords = "Corneocyte, High-speed atomic force microscopy, Nanotexture, Sinusoidal scanning, Skin barrier function",

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doi = "10.1016/j.ohx.2022.e00341",

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AU - Liao, Hsien Shun

AU - Akhtar, Imtisal

AU - Werner, Christian

AU - Slipets, Roman

AU - Pereda, Jorge

AU - Wang, Jen Hung

AU - Raun, Ellen

AU - Nørgaard, Laura Olga

AU - Dons, Frederikke Elisabet

AU - Hwu, Edwin En Te

PY - 2022

Y1 - 2022

N2 - High-speed atomic force microscopes (HS-AFMs) with high temporal resolution enable dynamic phenomena to be visualized at nanoscale resolution. However, HS-AFMs are more complex and costlier than conventional AFMs, and particulars of an open-source HS-AFM controller have not been published before. These high entry barriers hinder the popularization of HS-AFMs in both academic and industrial applications. In addition, HS-AFMs generally have a small imaging area that limits the fields of implementation. This study presents an open-source controller that enables a low-cost simplified AFM to achieve a maximum tip-sample velocity of 5,093 µm/s (9.3 s/frame, 512 × 512 pixels), which is nearly 100 times higher than that of the original controller. Moreover, the proposed controller doubles the imaging area to 46.3 × 46.3 µm2 compared to that of the original system. The low-cost HS-AFM can successfully assess the severity of atopic dermatitis (AD) by measuring the nanotexture of human skin corneocytes in constant height DC mode. The open-source controller-based HS-AFM system costs less than $4,000, which provides resource-limited research institutes with affordable access to high-throughput nanoscale imaging to further expand the HS-AFM research community.

AB - High-speed atomic force microscopes (HS-AFMs) with high temporal resolution enable dynamic phenomena to be visualized at nanoscale resolution. However, HS-AFMs are more complex and costlier than conventional AFMs, and particulars of an open-source HS-AFM controller have not been published before. These high entry barriers hinder the popularization of HS-AFMs in both academic and industrial applications. In addition, HS-AFMs generally have a small imaging area that limits the fields of implementation. This study presents an open-source controller that enables a low-cost simplified AFM to achieve a maximum tip-sample velocity of 5,093 µm/s (9.3 s/frame, 512 × 512 pixels), which is nearly 100 times higher than that of the original controller. Moreover, the proposed controller doubles the imaging area to 46.3 × 46.3 µm2 compared to that of the original system. The low-cost HS-AFM can successfully assess the severity of atopic dermatitis (AD) by measuring the nanotexture of human skin corneocytes in constant height DC mode. The open-source controller-based HS-AFM system costs less than $4,000, which provides resource-limited research institutes with affordable access to high-throughput nanoscale imaging to further expand the HS-AFM research community.

KW - Corneocyte

KW - High-speed atomic force microscopy

KW - Nanotexture

KW - Sinusoidal scanning

KW - Skin barrier function

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DO - 10.1016/j.ohx.2022.e00341

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ER -

Open-source controller for low-cost and high-speed atomic force microscopy imaging of skin corneocyte nanotextures

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