Soonyoung Jung scite author profile

In order to detect and identify ubiquitous lipid raft marker proteins, we isolated lipid rafts from different mouse organs, including the liver, lung, large brain, and kidney, and analyzed their proteins via 2-DE. Many protein spots were determined to be ubiquitous in all of the lipid rafts, and were annotated via LC and MS/MS. Twelve proteins were identified as ubiquitous raft proteins, and most of these were determined to be mitochondrial proteins, including mortalin, prohibitin, voltage-dependent anion channel, ATP synthase, NADH dehydrogenase, and ubiquinol-cytochrome c reductase. Via immunoblotting, these proteins were shown to exist in detergent-resistant lipid rafts prepared using different organ tissues. Since these oxidationreduction respiratory chains and ATP synthase complex were detected in detergent-resistant lipid raft fractions which had been isolated from the plasma membrane but not from the mitochondria, and found in the cell surface when determined by immunofluoresence and immunohistochemistry, we conclude that plasma membrane lipid rafts might contain oxidation-reduction respiratory chains and ATP synthase complex.

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Hole-Selective CoO_x/SiO_x/Si Heterojunctions for Photoelectrochemical Water Splitting

Jung

Lee

et al. 2018

ACS Catal.

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Cobalt oxide (CoO x ), an earth-abundant and low-cost oxygen evolving catalyst (OEC), has notable advantages as a top protection layer of photoanodes for solar-driven water oxidation because of its desirable durability. However, cobalt oxides exist as various phases, such as Co(II)O, Co2(III)O3, Co3(II,III)O4, and the (photo)electrochemical properties of CoO x are significantly governed by its phase. Atomic layer deposition (ALD) is a suitable method to form a multifunctional layer for photoelectrochemical (PEC) water splitting because it allows direct growth of a conformal high-quality film on various substrates as well as facile control over its chemical phases by adjusting the deposition conditions. Here, a well-controlled CoO x /SiO x /n-Si heterojunction prepared by ALD is demonstrated for solar-driven water splitting. The phase of the ALD CoO x films can be easily controlled from CoO to Co3O4 by varying the deposition temperature. In addition, this systematic study reveals that its energetic as well as electrochemical properties are changed significantly with the phase. Whereas CoO grown at 150 °C produces high photovoltage by building desirable hole-selective heterojunctions with n-Si, Co3O4 formed at 300 °C has a better catalytic property for water oxidation. To address this competitive correlation, we developed a double-layered (DL) ALD CoO x film that has advantages of both CoO and Co3O4. The DL ALD CoO x /SiO x /Si heterojunction photoanode produces a photocurrent density of 3.5 mA/cm2 without a buried junction and maintains a saturating current density of 32.5 mA/cm2 without noticeable degradation during 12 h in 1 M KOH under a simulated 1 sun illumination.

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Lasaft: Latent Source Attentive Frequency Transformation For Conditioned Source Separation

Choi

Kim

Chung

et al. 2021

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Recent deep-learning approaches have shown that Frequency Transformation (FT) blocks can significantly improve spectrogram-based single-source separation models by capturing frequency patterns. The goal of this paper is to extend the FT block to fit the multi-source task. We propose the Latent Source Attentive Frequency Transformation (LaSAFT) block to capture source-dependent frequency patterns. We also propose the Gated Point-wise Convolutional Modulation (GPoCM), an extension of Feature-wise Linear Modulation (FiLM), to modulate internal features. By employing these two novel methods, we extend the Conditioned-U-Net (CUNet) for multi-source separation, and the experimental results indicate that our LaSAFT and GPoCM can improve the CUNet's performance, achieving state-of-the-art SDR performance on several MUSDB18 source separation tasks.

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Environment‐Sensitive Two‐Photon Probe for Intracellular Free Magnesium Ions in Live Tissue

et al. 2007

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PEI-Functionalized Carbon Nanotube Thin Film Sensor for CO2 Gas Detection at Room Temperature

et al. 2021

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In this study, a polyethyleneimine (PEI)-functionalized carbon nanotube (CNT) sensor was fabricated for carbon dioxide detection at room temperature. Uniform CNT thin films prepared using a filtration method were used as resistive networks. PEI, which contains amino groups, can effectively react with CO2 gas by forming carbamates at room temperatures. The morphology of the sensor was observed, and the properties were analyzed by scanning electron microscope (SEM), Raman spectroscopy, and fourier transform infrared (FT-IR) spectroscopy. When exposed to CO2 gas, the fabricated sensor exhibited better sensitivity than the pristine CNT sensor at room temperature. Both the repeatability and selectivity of the sensor were studied.

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Soonyoung Jung

Oxidation–reduction respiratory chains and ATP synthase complex are localized in detergent-resistant lipid rafts

Hole-Selective CoO_x/SiO_x/Si Heterojunctions for Photoelectrochemical Water Splitting

Lasaft: Latent Source Attentive Frequency Transformation For Conditioned Source Separation

Environment‐Sensitive Two‐Photon Probe for Intracellular Free Magnesium Ions in Live Tissue

PEI-Functionalized Carbon Nanotube Thin Film Sensor for CO2 Gas Detection at Room Temperature

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Soonyoung Jung

Oxidation–reduction respiratory chains and ATP synthase complex are localized in detergent-resistant lipid rafts

Hole-Selective CoOx/SiOx/Si Heterojunctions for Photoelectrochemical Water Splitting

Lasaft: Latent Source Attentive Frequency Transformation For Conditioned Source Separation

Environment‐Sensitive Two‐Photon Probe for Intracellular Free Magnesium Ions in Live Tissue

PEI-Functionalized Carbon Nanotube Thin Film Sensor for CO2 Gas Detection at Room Temperature

Contact Info

Product

Resources

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Hole-Selective CoO_x/SiO_x/Si Heterojunctions for Photoelectrochemical Water Splitting