Shih‐Ya Chen scite author profile

Shih‐Ya Chen

4Publications

120Citation Statements Received

97Citation Statements Given

How they've been cited

119

How they cite others

188

Affiliations

Institute of Molecular Biology, Health First, Institute of Molecular Biology

Publications

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Nanographenes: Ultrastable, Switchable, and Bright Probes for Super‐Resolution Microscopy

Liu

Chen

et al. 2019

Angew Chem Int Ed

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Super‐resolution fluorescence microscopy has enabled important breakthroughs in biology and materials science. Implementations such as single‐molecule localization microscopy (SMLM) and minimal emission fluxes (MINFLUX) microscopy in the localization mode exploit fluorophores that blink, i.e., switch on and off, stochastically. Here, we introduce nanographenes, namely large polycyclic aromatic hydrocarbons that can also be regarded as atomically precise graphene quantum dots, as a new class of fluorophores for super‐resolution fluorescence microscopy. Nanographenes exhibit outstanding photophysical properties: intrinsic blinking even in air, excellent fluorescence recovery, and stability over several months. As a proof of concept for super‐resolution applications, we use nanographenes in SMLM to generate 3D super‐resolution images of silica nanocracks. Our findings open the door for the widespread application of nanographenes in super‐resolution fluorescence microscopy.

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Patterned illumination single molecule localization microscopy (piSMLM): user defined blinking regions of interest

Chen¹,

Bestvater²,

Schaufler³

et al. 2018

Opt. Express

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True-to-scale DNA-density maps correlate with major accessibility differences between active and inactive chromatin

et al. 2023

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Sample drift estimation method based on speckle patterns formed by backscattered laser light

Chen¹,

Heintzmann²,

Cremer³

2019

Biomed. Opt. Express

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Single molecule localization microscopy (SMLM) has been established to acquire images with unprecedented resolution down to several nanometers. A typical time scale for image acquisition is several minutes to hours. Yet it is difficult to avoid completely sample drift for long time measurements. To estimate drift, we present a method based on the evaluation of speckle patterns formed by backscattered laser light from the cells using a single molecule localization microscope setup. A z-stack of unique speckle patterns is recorded prior to the measurements as a three-dimensional position reference. During the experiment, images of scattered laser light were acquired, and correlated individually with each of the images of the speckle reference stack to estimate x, y and z drift. Our method shows highly comparable results with a fiducial marker approach, achieving a precision of several nanometers. This method allows for high precision three dimensional drift correction of microscope systems without any additional sample preparation.

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Shih‐Ya Chen

Nanographenes: Ultrastable, Switchable, and Bright Probes for Super‐Resolution Microscopy

Patterned illumination single molecule localization microscopy (piSMLM): user defined blinking regions of interest

True-to-scale DNA-density maps correlate with major accessibility differences between active and inactive chromatin

Sample drift estimation method based on speckle patterns formed by backscattered laser light

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