Your search keyword '"Hsien-Shun Liao"' showing total 11 results

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

Author

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

Subjects

High-speed atomic force microscopy, Sinusoidal scanning, Nanotexture, Corneocyte, Skin barrier function, Science (General), Q1-390

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.

Published

2022

2. Low-cost, open-source XYZ nanopositioner for high-precision analytical applications

Author

Hsien-Shun Liao, Christian Werner, Roman Slipets, Peter Emil Larsen, Ing-Shouh Hwang, Tien-Jen Chang, Hans Ulrich Danzebrink, Kuang-Yuh Huang, and En-Te Hwu

Subjects

Nanopositioning, 3D printing, Atomic resolution, Vibrometer, Atomic force microscopy, Scanning electron microscopy, Science (General), Q1-390

Abstract

Nanoscale positioning has numerous applications in both academia and industry. A growing number of applications require devices with long working distances and nanoscale resolutions. Friction–inertia piezoelectric positioners, which are based on the stick–slip mechanism, achieve both nanometer resolution and centimeter-scale travel. However, the requirements of complex preload mechanism, precision machining, and precise assembly increase the cost of conventional friction–inertia nanopositioners. Herein we present the design of an open-source XYZ-axis nanopositioning system. Utilizing a magnet-based stick–slip driving mechanism, the proposed XYZ nanopositioner provides several advantages, including sub-nanometer resolution, a payload capacity of up to 12 kg (horizontal), compact size, low cost, and easy assembly; furthermore, the system is adjustment-free. The performance tests validate the precision of the system in both scanning and stepping operation modes. Moreover, the resonant spectra affirm the rigidity and dynamic response of the mechanism. In addition, we demonstrate the practical applications of this nanopositioner in various measurement techniques, including scanning electron microscopy, vibrometry, and atomic force microscopy. Furthermore, we present 11 variations of the nanopositioner designs that are either compatible with ultra-high-vacuum systems and other existing systems, 3D printable, or hacking commercial linear slides.

Published

2022

3. Real-Time Reflectance Measurement Using an Astigmatic Optical Profilometer

Author

Hsien-Shun Liao, Ya-Kang Huang, Jian-Yuan Syu-Gu, and En-Te Hwu

Subjects

reflectance, astigmatism, optical profilometer, Chemical technology, TP1-1185

Abstract

An astigmatic optical profilometer with a commercial optical pickup head provides benefits, such as high resolution, compact size, and low cost. To eliminate artifacts caused by complex materials with different reflectances, a z-axis modulation mode is proposed to obtain quantitative surface morphology by measuring S curves on all image pixels. Moreover, the slope of the linear region in the S curve shows a positive relationship with the surface reflectance. However, the slope was calculated using an offline curve fitting method, which did not allow real-time reflectance imaging. Furthermore, quantitative reflectance data were unavailable because of the lack of calibration. In this study, we propose a novel method for real-time reflectance imaging by measuring the amplitude of a focus error signal (FES). The calibration results displayed a linear relationship between the FES amplitude and reflectance. The reflectance image of a grating sample with chrome patterns on a glass substrate demonstrates accurate reflectance measurements with a micrometer spatial resolution.

Published

2022

4. Method for Film Thickness Mapping with an Astigmatic Optical Profilometer

Author

Hsien-Shun Liao, Shih-Han Cheng, and En-Te Hwu

Subjects

astigmatism, optical profilometer, thickness measurement, Chemical technology, TP1-1185

Abstract

An astigmatic optical profilometer is a precision instrument with advantages such as high resolution, high bandwidth, a compact size, and low cost. However, current astigmatic optical profilometers measure only surface morphology, and their potential for capturing subsurface information remains underutilized. In this study, we developed a method for measuring the thickness of transparent thin films with an astigmatic optical profilometer. Experimental results demonstrate that the thickness of transparent films tens of micrometers thick can be accurately measured. The maximum thickness measurable through our system is approximately 100 μm, which may be increased to 1.2 mm through the use of a scanner with a greater travel range. A coupling problem occurs for films

Published

2022

5. Actin dynamics provides membrane tension to merge fusing vesicles into the plasma membrane

Author

Peter J. Wen, Staffan Grenklo, Gianvito Arpino, Xinyu Tan, Hsien-Shun Liao, Johanna Heureaux, Shi-Yong Peng, Hsueh-Cheng Chiang, Edaeni Hamid, Wei-Dong Zhao, Wonchul Shin, Tuomas Näreoja, Emma Evergren, Yinghui Jin, Roger Karlsson, Steven N. Ebert, Albert Jin, Allen P. Liu, Oleg Shupliakov, and Ling-Gang Wu

Subjects

Science

Abstract

As vesicles fuse to the plasma membrane, they form intermediate Ω-shaped structures followed by either closure of the pore or full merging with the plasma membrane. Here Wen et al. show that dynamic actin assembly provides membrane tension to promote Ω merging in neuroendocrine cells and synapses.

Published

2016

6. Effect of Osmotic Pressure on Cellular Stiffness as Evaluated Through Force Mapping Measurements.

Author

Hsien-Shun Liao, Wen, Peter J., Ling-Gang Wu, and Jin, Albert J.

Subjects

*OSMOTIC pressure, *ATOMIC force microscopy, *ION-permeable membranes

Abstract

Atomic force microscopy (AFM) has been used to measure cellular stiffness at different osmolarities to investigate the effect of osmotic pressure on cells. However, substantial direct evidence is essential to clarify the phenomena derived from the experimental results. This study used both the single-point and force mapping methods to measure the effective Young's modulus of the cell by using temporal and spatial information. The single-point force measurements confirmed the positive correlation between cellular stiffness and osmolarity. The force mapping measurements provided local stiffness on the cellular surface and identified the cytoskeleton distribution underneath the plasma membrane. At hyper-osmolarity, the cytoskeleton was observed to cover most of the area underneath the plasma membrane, and the effective Young's modulus on the area with cytoskeleton support was determined to be higher than that at iso-osmolarity. The overall increase in cellular Young's modulus confirmed the occurrence of cytoskeleton compression at hyper-osmolarity. On the other hand, although the average Young's modulus at hypo-osmolarity was lower than that at iso-osmolarity, we observed that the local Young's modulus measured on the areas with cytoskeleton support remained similar from iso-osmolarity to hypo-osmolarity. The reduction of the average Young's modulus at hypo-osmolarity was attributed to reduced cytoskeleton coverage underneath the plasma membrane. [ABSTRACT FROM AUTHOR]

Published

2018

7. AFM pickup head with holographic optical element (HOE).

Author

Bo-Jing Juang, Kuang-Yuh Huang, Hsien-Shun Liao, Kuok-Chan Leong, and Ing-Shouh Hwang

Published

2010

8. Torsional resonance mode atomic force microscopy in liquid with Lorentz force actuation.

Author

Chih-Wen Yang, Ren-Feng Ding, Shih-Hsiu Lai, Hsien-Shun Liao, Wei-Chiao Lai, Kuang-Yuh Huang, Chia-Seng Chang, and Ing-Shouh Hwang

Subjects

TORSIONAL vibration, NUCLEAR forces (Physics), LORENTZ force, ATOMIC force microscopy, HYDRATION, OSCILLATING chemical reactions

Abstract

In this work, we present a design based on Lorentz force induction to excite pure torsional resonances of different types of cantilevers in air as well as in water. To demonstrate the atomic force microscopy imaging capability, the phase-modulation torsional resonance mode is employed to resolve fine features of purple membranes in a buffer solution. Most importantly, force-versus-distance curves using a relatively stiff cantilever can clearly detect the characteristic oscillatory profiles of hydration layers at a water-mica interface, indicating the high force sensitivity of the torsional mode. The high resonance frequencies and high quality-factors for the torsional mode may be of great potential for high-speed and high-sensitivity imaging in aqueous environment. [ABSTRACT FROM AUTHOR]

Published

2013

9. An Astigmatic Detection System for Polymeric Cantilever-Based Sensors.

Author

En-Te Hwu, Hsien-Shun Liao, Bosco, Filippo G., Ching-Hsiu Chen, Sylvest Keller, Stephan, Boisen, Anja, and Kuang-Yuh Huang

Subjects

ASTIGMATISM, POLYMERIC composites, OPTICAL microscopes, SIGNAL-to-noise ratio, VIBRATION (Mechanics), MICROMETERS

Abstract

We demonstrate the use of an astigmatic detection system (ADS) for resonance frequency identification of polymer microcantilever sensors. The ADS technology is based on a DVD optical head combined with an optical microscope (OM). The optical head has a signal bandwidth of 80MHz, allowing thermal fluctuation measurements on cantilever beams with a subnanometer resolution. Furthermore, an external excitation can intensify the resonance amplitude, enhancing the signal- to-noise ratio. The full width at half maximum(FWHM) of the laser spot is 568 nm, which facilitates read-out on potentially submicrometer-sized cantilevers. The resonant frequency of SU-8 microcantilevers is measured by both thermal fluctuation and excited vibration measurement modes of the ADS. [ABSTRACT FROM AUTHOR]

Published

2012

10. High-speed force mapping based on an astigmatic atomic force microscope.

Author

Hsien-Shun Liao, Ka Kit Lei, and Yu Fang Tseng

Subjects

ATOMIC force microscopes, CANTILEVERS, SPEED measurements

Abstract

The force mapping function in an atomic force microscope (AFM) can be used to measure mechanical properties at the nanoscale. Currently, the temporal and spatial resolutions of force mapping are mainly limited by the bandwidths of the scanner and the cantilever tip. The measurement speed can be improved by using an ultra-small cantilever tip. However, a customized read-out system is essential for detecting the cantilever deflection. In this study, a high-speed force mapping mode was built on an astigmatic high-speed AFM. The experimental results demonstrated that this homemade system achieved a high-speed force-curve rate of 6.1 kHz and scan rate of 12 line s−1 (21 s/frame) with an image resolution of 256  ×  256 pixels. The sample stiffness mapping qualitatively distinguished the polystyrene and polyolefin elastomer materials. [ABSTRACT FROM AUTHOR]

Published

2019

11. A novel method for quantitative height measurement based on an astigmatic optical profilometer.

Author

Hsien-Shun Liao, Guan-Teng Huang, Ho-Da Tu, Ting-He Lin, and En-Te Hwu

Subjects

PROFILOMETER, HEIGHT measurement, SURFACE morphology, REFLECTANCE, OPTICAL detectors

Abstract

Astigmatic detection systems have been used in hybrid systems to produce both contact and noncontact profilometers, which provide advantageous features such as low cost, small laser spot, high bandwidth, and compact size. However, current astigmatic optical profilometers cannot provide quantitative height measurement on a surface consisting of complex materials. In this paper, a novel method called z-axis modulation is proposed to overcome this limitation. A homemade astigmatic optical profilometer was developed, and an analytical process for height calculation was also developed. As demonstrated by the experimental results, z-axis modulation can provide accurate height measurement. Furthermore, optical properties such as reflectivity can also be measured. [ABSTRACT FROM AUTHOR]

Published

2018