Hyo Geun Yun scite author profile

We propose a simple white-light interferometric method of measuring a one-dimensional rotation angle with use of an optical plane parallel plate of standard refractive index. The phase change of the interference pattern of the interferometer during the rotation of the flat plate of known refractive index and thickness placed in one of the interferometer's arms is used for determination of the rotation angle. This method has been demonstrated for an accurate angle measurement over the angle range from 0° to 40° within a maximum uncertainty of 0.057°.

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Single-longitudinal-mode fiber ring lasers with a saturation-level-controlled saturable absorber

Lee

Yun

Lee

et al. 2013

Optics Communications

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Real-time monitoring of mono- and dual-species biofilm formation and eradication using microfluidic platform

Tran

Khan

Han

et al. 2022

Sci Rep

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In a human host, bacterial Staphylococcus aureus and fungal Candida albicans pathogens form a mixed biofilm that causes severe mortality and morbidity. However, research on the formation and eradication of mixed biofilms under dynamic conditions is lacking. Thus, this study employed a microfluidic technique to analyze the real-time formation of mono- and dual-species (S. aureus and C. albicans) biofilms and noninvasive optical treatment of the established mature biofilm using 405-nm laser light. A herringbone mixer thoroughly mixed both bacterial and fungal cells in the growth media before being injected into the observation channels on the microfluidic chip. At a flow rate of 1.0 µL/min of growth media for 24 h, the bacterial biofilm coverage was up to 15% higher than that of the fungal biofilm (50% for bacteria vs. 35% for fungus). On the other hand, the dual-species biofilm yielded the highest coverage of ~ 96.5% because of the collective interaction between S. aureus and C. albicans. The number of cell proliferation events in S. aureus was higher than that of C. albicans for 12 h, which indicates that the S. aureus biofilm was developed faster than C. albicans. The novel in situ test platform showed a significant bactericidal effect (80%) of the 405-nm laser light at 1080 J/cm2 towards the established S. aureus biofilm, whereas the same treatment removed approximately 69% of the mixed cells in the dual-species biofilm. This study revealed that the developed microfluidic platform could be utilized to monitor the formation of dual-species biofilms in real-time and laser-induced antimicrobial effects on dual-species biofilms.

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Integrative Magneto‐Microfluidic Separation of Immune Cells Facilitates Clinical Functional Assays

Shin

Park

Lee

et al. 2023

Small

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Accurately analyzing the functional activities of natural killer (NK) cells in clinical diagnosis remains challenging due to their coupling with other immune effectors. To address this, an integrated immune cell separator is required, which necessitates a streamlined sample preparation workflow including immunological cell isolation, removal of excess red blood cells (RBCs), and buffer exchange for downstream analysis. Here, a self‐powered integrated magneto‐microfluidic cell separation (SMS) chip is presented, which outputs high‐purity target immune cells by simply inputting whole blood. The SMS chip intensifies the magnetic field gradient using an iron sphere‐filled inlet reservoir for high‐performance immuno‐magnetic cell selection and separates target cells size‐selectively using a microfluidic lattice for RBC removal and buffer exchange. In addition, the chip incorporates self‐powered microfluidic pumping through a degassed polydimethylsiloxane chip, enabling the rapid isolation of NK cells at the place of blood collection within 40 min. This chip is used to isolate NK cells from whole blood samples of hepatocellular cancer patients and healthy volunteers and examined their functional activities to identify potential abnormalities in NK cell function. The SMS chip is simple to use, rapid to sort, and requires small blood volumes, thus facilitating the use of immune cell subtypes for cell‐based diagnosis.

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Hyo Geun Yun

Rotation angle measurement based on white-light interferometry with a standard optical flat

Single-longitudinal-mode fiber ring lasers with a saturation-level-controlled saturable absorber

Real-time monitoring of mono- and dual-species biofilm formation and eradication using microfluidic platform

Integrative Magneto‐Microfluidic Separation of Immune Cells Facilitates Clinical Functional Assays

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