Your search keyword '"Sungjun Park"' showing total 271 results

101. Ultrasoft electronics to monitor dynamically pulsing cardiomyocytes

Author

Tomoyuki Yokota, Katsuhisa Matsuura, Daisuke Sasaki, Sungjun Park, Dongmin Kim, Tatsuya Shimizu, Kenjiro Fukuda, Masaki Sekino, Sunghoon Lee, Hyunjae Lee, Mami Mori, and Takao Someya

Subjects

Materials science, Induced Pluripotent Stem Cells, Biomedical Engineering, Bioengineering, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, chemistry.chemical_compound, Optical imaging, Long period, Electric Impedance, Humans, Myocytes, Cardiac, General Materials Science, Electronics, Electrical and Electronic Engineering, Optical Imaging, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Flexible electronics, 0104 chemical sciences, Nanomesh, chemistry, Nanoparticles, 0210 nano-technology

Abstract

In biointegrated electronics, the facile control of mechanical properties such as softness and stretchability in electronic devices is necessary to minimize the perturbation of motions inherent in biological systems1–5. For in vitro studies, multielectrode-embedded dishes6–8 and other rigid devices9–12 have been widely used. Soft or flexible electronics on plastic or elastomeric substrates13–15 offer promising new advantages such as decreasing physical stress16–18 and/or applying mechanical stimuli19,20. Recently, owing to the introduction of macroporous plastic substrates with nanofibre scaffolds21,22, three-dimensional electrophysiological mapping of cardiomyocytes has been demonstrated. However, quantitatively monitoring cells that exhibit significant dynamical motions via electric probes over a long period without affecting their natural motion remains a challenge. Here, we present ultrasoft electronics with nanomeshes that monitor the field potential of human induced pluripotent stem cell-derived cardiomyocytes on a hydrogel, while enabling them to move dynamically without interference. Owing to the extraordinary softness of the nanomeshes, nanomesh-attached cardiomyocytes exhibit contraction and relaxation motions comparable to that of cardiomyocytes without attached nanomeshes. Our multilayered nanomesh devices maintain reliable operations in a liquid environment, enabling the recording of field potentials of the cardiomyocytes over a period of 96 h without significant degradation of the nanomesh devices or damage of the cardiomyocytes. Ultrasoft nanomesh electronics enable monitoring of the field potential of cardiomyocytes without interference with their natural motion.

Published

2018

102. Systematic Review on Human Skin-Compatible Wearable Photoplethysmography Sensors

Author

Chuljin Hwang, Nakkyun Park, Hanbee Lee, Sungjun Park, Inho Lee, and Joohee Kim

Subjects

Computer science, Wearable computer, 02 engineering and technology, Diagnostic evaluation, lcsh:Technology, lcsh:Chemistry, 03 medical and health sciences, photodiodes, skin electronic, Photoplethysmogram, Electronic engineering, General Materials Science, Instrumentation, lcsh:QH301-705.5, 030304 developmental biology, optoelectronic device, Fluid Flow and Transfer Processes, 0303 health sciences, Focus (computing), oximeters, lcsh:T, Process Chemistry and Technology, phototransistors, General Engineering, 021001 nanoscience & nanotechnology, lcsh:QC1-999, Computer Science Applications, lcsh:Biology (General), lcsh:QD1-999, lcsh:TA1-2040, sense organs, PPG sensors, 0210 nano-technology, lcsh:Engineering (General). Civil engineering (General), lcsh:Physics

Abstract

The rapid advances in human-friendly and wearable photoplethysmography (PPG) sensors have facilitated the continuous and real-time monitoring of physiological conditions, enabling self-health care without being restricted by location. In this paper, we focus on state-of-the-art skin-compatible PPG sensors and strategies to obtain accurate and stable sensing of biological signals adhered to human skin along with light-absorbing semiconducting materials that are classified as silicone, inorganic, and organic absorbers. The challenges of skin-compatible PPG-based monitoring technologies and their further improvements are also discussed. We expect that such technological developments will accelerate accurate diagnostic evaluation with the aid of the biomedical electronic devices.

Published

2021

103. A Study on Liner-Reaction Speed based on the Aging of a Curing System

Author

Sunghan Choi, Sungjun Park, and Jungho Park

Subjects

Materials science, Reaction speed, Composite material, Curing (chemistry)

Abstract

In this study, the hardening reaction speed of a rocket motor liner based on the aging of a curing system comprised of a hardener and hardening catalyst was observed. It was indicated that as the aging time of the curing system increased, the liner viscosity build-up was accelerated. The raw material having the biggest impact on the hardening reaction of the curing system’s liner was triphenylbismuth (TPB). Stirring isophorone diisocyanate and TPB forms activated complex, and the activated complex facilitates urethane reaction. If TPB is ligand bound with isocyanate, it forms TPB-isocyanate complex. This is a type of TPB’s oxide, and the formation of activated complex through changes in its color. In addition, lining hardening time can be adjusted by the aging period of the curing system through this study, and adhesive strength with the liner and propellant can be improved.

Published

2021

104. Pentoxifylline Restores T Cell Viability in Hyper-inflammatory Conditions

Author

Young-Duck Cho, Sungjun Park, Jung-Youn Kim, Kyung Hwan Kim, Sung-Hyuk Choi, Hanjin Cho, Won Young Kim, and Chae-Seung Lim

Subjects

medicine.anatomical_structure, Chemistry, T cell, medicine, Pharmacology, Pentoxifylline, medicine.drug

Abstract

Background: Immunity is the state of having sufficient biological defenses to avoid infection, trauma, or other unwanted biological invasions. T-cells and macrophages play important role in cell-mediated immunity. Pentoxifylline (PTX) is known to decrease pro-inflammatory cytokine and tumor necrosis factor (TNF-α). However, the effect on the immune system is not known well. This study aims to investigate the effect of PTX on inflammation. Methods: THP-1 derived macrophages were incubated with lipopolysaccharide (LPS) and/or indicated concentration of PTX for 8hr and wash with PBS to eliminate the effect of LPS. In this media, Jurkat cells were plated into trans-well plate and co-culture was done at 12hr. The T cell viability was measured by MTT. Also, the expression of Interleukin-2 (IL-2) was analyzed by RT-PCR and western blots. Results: PTX restored the increased concentration of MIF, TLR4 protein level and mRNA expression of TLR4 in LPS stimulated THP-1 derived macrophages. However, PTX did not restore the decreased T cell proliferation with PGE2 in Jurkat cells. In the co-culture study, The T cell viability was decreased in the THP-1 derived macrophage cells stimulated with LPS. The additional PTX restored the T cell's viability. Besides, PTX restored the decrease in the IL-2 expression of Jurkat cells in the LPS stimulated THP-1 derived macrophages. Conclusion: LPS stimulated THP-1 derived macrophages inhibited the T cell viability in hyper-inflammation conditions. However, PTX restored the T cells viability with increase IL-2. PTX influenced the cell-cell interaction, therefore, had its immunomodulatory effects.

Published

2020

105. Alleviation of DSS-induced colitis via Lactobacillus acidophilus treatment in mice

Author

You Jin Jang, GwangPyo Ko, Dae Hee Han, Hyuk Seung Han, Sungjun Park, Woon-Ki Kim, Sung Jae Jang, and Giljae Lee

Subjects

0301 basic medicine, medicine.medical_specialty, medicine.medical_treatment, Butyrate, Gut flora, digestive system, Proinflammatory cytokine, 03 medical and health sciences, Mice, 0302 clinical medicine, Immune system, Lactobacillus acidophilus, Internal medicine, medicine, Animals, Colitis, biology, business.industry, Probiotics, Dextran Sulfate, General Medicine, biology.organism_classification, medicine.disease, Gastrointestinal Microbiome, Mice, Inbred C57BL, Disease Models, Animal, 030104 developmental biology, Cytokine, Endocrinology, Myeloperoxidase, biology.protein, 030211 gastroenterology & hepatology, Female, business, Food Science

Abstract

Gut microbiota play a major role in host physiology and immunity. Inflammatory bowel diseases (IBDs), the important immune-related diseases, can occur through immune system malfunction originating due to dysregulation of the gut microbiota. The aim of this study was to investigate the capabilities and mechanisms of Lactobacillus acidophilus (L. acidophilus) KBL402 and KBL409 treatment in the alleviation of colitis using the in vivo dextran sodium sulfate (DSS)-induced colitis mice model. Various colitis symptoms of mice, including disease activity index score [4.55 ± 0.99 (P < 0.001) and 5.12 ± 0.94 (P < 0.001), respectively], colon length [6.18 ± 0.43 mm (P < 0.001) and 6.62 ± 0.47 mm (P < 0.001), respectively], and colon histological score [(5.33 ± 1.03 (P < 0.001) and 4.00 ± 0.89 (P < 0.01), respectively)], were significantly restored with L. acidophilus KBL402 or KBL409 administration (1 × 109 colony-forming units) for 8 days. Moreover, inflammatory cytokines, chemokines, and myeloperoxidase were downregulated in mice with L. acidophilus treatment. Upregulation of anti-inflammatory cytokine IL-10 or regulatory T cells were discovered with L. acidophilus KBL402 (12.90 ± 7.87 pg mL−1) (P < 0.05) or L. acidophilus KBL409 treatment (10.63 ± 2.70%) (P < 0.05), respectively. Expressions of inflammation-related micro-RNAs (miRs) were also significantly altered in mice with L. acidophilus. Finally, L. acidophilus treatment could restore the diversity of the gut microbiota. Mice with L. acidophilus KBL402 treatment showed a high relative abundance of the genus Akkermansia (0.022 ± 0.017) and Prevotella (0.010 ± 0.006) (P < 0.01). Butyrate and propionate, the major short-chain fatty acids, in the ceca of DSS + KBL402-treated mice were significantly higher than in that of the mice with DSS-induced colitis (0.03 ± 0.02 ng mg−1 and 0.03 ± 0.01 ng mg−1, respectively) (P < 0.05). Our study suggests that L. acidophilus KBL402 and KBL409 could be useful for the prevention or treatment of IBDs in various ways including the modulation of immune responses and miR expression, restoration of the gut microbiota, and production of metabolites.

Published

2020

106. Ultra-fast and recyclable DNA biosensor for point-of-care detection of SARS-CoV-2 (COVID-19)

Author

Sungjun Park, Su Dong Kim, Nakkyun Park, Joohee Kim, Miran Kim, Nam-Young Kim, Eun Seong Kim, and Chuljin Hwang

Subjects

Analyte, Short Communication, Point-of-Care Systems, Biomedical Engineering, Biophysics, 02 engineering and technology, Biosensing Techniques, 01 natural sciences, Sensitivity and Specificity, DNA sequencing, electrochemical DNA detection, chemistry.chemical_compound, recyclable biosensor, RNA polymerase, Spectroscopy, Fourier Transform Infrared, Electrochemistry, Humans, Gene, Chromatography, Chemistry, SARS-CoV-2, 010401 analytical chemistry, COVID-19, General Medicine, DNA, 021001 nanoscience & nanotechnology, Fluorescence, 0104 chemical sciences, Nucleic acid, RNA, Viral, capacitance transducer, point-of-care diagnostics, 0210 nano-technology, Biosensor, Biotechnology

Abstract

Rapid diagnosis and case isolation are pivotal to controlling the current pandemic of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). In this study, a label-free DNA capacitive biosensor for the detection of SARS-CoV-2 that demonstrates real-time, low-cost, and high-throughput screening of nucleic acid samples is presented. Our novel biosensor composed of the interdigitated platinum/titanium electrodes on the glass substrate can detect the hybridization of analyte DNA with probe DNA. The hybridization signals of specific DNA sequences were verified through exhaustive physicochemical analytical techniques such as Fourier transform infrared (FT-IR) spectrometry, contact-angle analysis, and capacitance-frequency measurements. For a single-step hybridized reaction, the fabricated kit exhibited significant sensitivity (capacitance change, ΔC = ∼2 nF) in detecting the conserved region of the SARS-CoV-2 RNA-dependent RNA polymerase (RdRp) gene with high sensitivity of 0.843 nF/nM. In addition to capacitive measurements, this selective detection was confirmed by the fluorescence image and intensity from a SARS-CoV-2 gene labeled with a fluorescent dye. We also demonstrated that the kits are recyclable by surface ozone treatment using UV irradiation. Thus, these kits could potentially be applied to various types of label-free DNA, thereby acting as rapid, cost-effective biosensors for several diseases.

Published

2020

107. Real-time rendering of solvent-accessible surfaces for molecular models.

Author

Jun Lee, Sungjun Park, Youngjin Choi, HyungSeok Kim 0001, and Jee-In Kim

Published

2008

108. Gold Nanoparticle Formation via X-ray Radiolysis Investigated with Time-Resolved X-ray Liquidography

Author

Minseo Choi, Hosung Ki, Sungjun Park, Si-in Kim, Chi Woo Ahn, Mu-Hyun Baik, Doo-Sik Ahn, Seunghwan Eom, Hyotcherl Ihee, Changwon Kim, Jain Gu, Sena Ahn, and Jungkweon Choi

Subjects

Materials science, Nanoparticle, Metal Nanoparticles, Electrons, 02 engineering and technology, 010402 general chemistry, Photochemistry, 01 natural sciences, Catalysis, Article, time-resolved X-ray liquidography, Ion, Inorganic Chemistry, Metal, lcsh:Chemistry, X-Ray Diffraction, Molecule, Physical and Theoretical Chemistry, Particle Size, Molecular Biology, lcsh:QH301-705.5, Spectroscopy, Aqueous solution, Lasers, X-Rays, Organic Chemistry, Water, General Medicine, 021001 nanoscience & nanotechnology, Gold Compounds, 0104 chemical sciences, Computer Science Applications, Solutions, lcsh:Biology (General), lcsh:QD1-999, Colloidal gold, X-ray radiolysis, visual_art, Radiolysis, visual_art.visual_art_medium, laser ablation, Density functional theory, Gold, Laser Therapy, 0210 nano-technology, Pulse Radiolysis, gold nanoparticle, Synchrotrons

Abstract

We report the generation of gold nanoparticles (AuNPs) from the aqueous solution of chloro(2,2&prime, 2&Prime, terpyridine)gold(III) ion ([Au(tpy)Cl]2+) through X-ray radiolysis and optical excitation at a synchrotron. The original purpose of the experiment was to investigate the photoinduced structural changes of [Au(tpy)Cl]2+ upon 400 nm excitation using time-resolved X-ray liquidography (TRXL). Initially, the TRXL data did not show any signal that would suggest structural changes of the solute molecule, but after an induction time, the TRXL data started to show sharp peaks and valleys. In the early phase, AuNPs with two types of morphology, dendrites, and spheres, were formed by the reducing action of hydrated electrons generated by the X-ray radiolysis of water, thereby allowing the detection of TRXL data due to the laser-induced lattice expansion and relaxation of AuNPs. Along with the lattice expansion, the dendritic and spherical AuNPs were transformed into smaller, raspberry-shaped AuNPs of a relatively uniform size via ablation by the optical femtosecond laser pulse used for the TRXL experiment. Density functional theory calculations confirm that the reduction potential of the metal complex relative to the hydration potential of X-ray-generated electrons determines the facile AuNP formation observed for [Au(tpy)Cl]2+.

Published

2020

109. Developing a Mobile App for Patients to Monitor Medical Record Changes Using Blockchain

Author

SungJun, Park, MinDong, Sung, Sungjae, Jung, Eunsol, Lee, Jaehoon, Lee, and Yu Rang, Park

Subjects

Blockchain, Republic of Korea, Electronic Health Records, Humans, Mobile Applications

Abstract

According to recent revisions to medical laws in Korea, changes to electronic medical records are to be documented. To do so, however, a transparent system with which to store original documents and changes thereto is needed. The transparency and immutability of blockchain records are the key characters of blockchain technology. Employing these characteristics, we developed an application with which to monitor changes of medical records using blockchain.

Published

2020

110. Quantitative and rapid detection of iodide ion via electrolyte-gated IGZO thin-film transistors

Author

Chuljin Hwang, Joohee Kim, Sungjun Park, Taehyun Kwak, and Chang-Hyun Kim

Subjects

Detection limit, chemistry.chemical_classification, Materials science, Transconductance, Iodide, Metals and Alloys, Analytical chemistry, Electrolyte, Condensed Matter Physics, Electrochemistry, Capacitance, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Ion, Dielectric spectroscopy, chemistry, Materials Chemistry, Electrical and Electronic Engineering, Instrumentation

Abstract

In this study, rapid-detection iodide ion sensors based on sol-gel indium-gallium-zinc-oxide electrolyte gated thin-film transistors (IGZO-EGTFTs) have been examined. With a high electrical-double-layer capacitance (6.2 μF/cm2) at the interface between IGZO channel and physiological fluid (i.e., phosphate-buffered saline and artificial urine solution), the EGTFTs can be operated under 0.5 V with a high ON and OFF state current ratio above 108, and transconductance value of 1.14 mS. In addition to excellent electrical characteristics, the novel electrochemical reaction of IGZO-EGTFTs enables high selectivity and linear response over a wide detection range of iodide ions concentration (from 1 to 104 μM), the limit of detection as low as 1 μM, and response time below 0.1 s. The mechanism of iodide ions detection of IGZO-EGTFT was investigated based on electrochemical impedance spectroscopy analysis. We expect that IGZO-EGTFTs will contribute to the development of point-of-care rapid and reusable ion-sensors for human urine and serum.

Published

2022

111. High Speed Response Organic Photodetectors with Cascade Buffer Layers (Adv. Electron. Mater. 2/2022)

Author

Naotoshi Suganuma, Chul‐Joon Heo, Daiki Minami, Sungyoung Yun, Sungjun Park, Younhee Lim, Feifei Fang, Byoungki Choi, and Kyung‐Bae Park

Subjects

Electronic, Optical and Magnetic Materials

Published

2022

112. Significant Dark Current Suppression in Organic Photodetectors Using Side Chain Fluorination of Conjugated Polymer (Adv. Funct. Mater. 4/2022)

Author

Byoungwook Park, Juhyoung Jung, Dae‐Hee Lim, Hanbee Lee, Sungjun Park, Minju Kyeong, Seo‐Jin Ko, Seung Hun Eom, Seung‐Hoon Lee, Changjin Lee, and Sung Cheol Yoon

Subjects

Biomaterials, Electrochemistry, Condensed Matter Physics, Electronic, Optical and Magnetic Materials

Published

2022

113. The effect of interest in renewable energy on US household electricity consumption: An analysis using Google Trends data

Author

Jin-Soo Kim and Sungjun Park

Subjects

Consumption (economics), Driving factors, Index (economics), Mains electricity, Renewable Energy, Sustainability and the Environment, business.industry, 020209 energy, Big data, 02 engineering and technology, Environmental economics, Renewable energy, Economic indicator, 0202 electrical engineering, electronic engineering, information engineering, Electricity, business

Abstract

Google Trends is a service based on big data that shows the frequency of global searches in real time. As an index of individual interest, Google Trends has been used in various research fields. This study estimates the relationship between household electricity consumption and individuals' interest in energy based on Google Trends data. In particular, from the viewpoint of renewable energy, we compare the relationship between electricity consumption and the “renewable” Google Trends keyword with that between electricity consumption and other keywords. A model is constructed to examine the effect on household consumption of substituting electricity with renewable energy. We find that household electricity consumption decreases by 16.017 million kWh for every one unit increase in search of the “renewable” keyword. This study therefore illustrates that Google Trends enables the estimation of driving factors that are difficult to uncover when analyzing with various economic indicators.

Published

2018

114. Self-powered ultra-flexible electronics via nano-grating-patterned organic photovoltaics

Author

Zhi Jiang, Wonryung Lee, Kilho Yu, Keisuke Tajima, Sungjun Park, Tomoyuki Yokota, Daisuke Hashizume, Takao Someya, Masaki Sekino, Daishi Inoue, Kenjiro Fukuda, Soo Won Heo, and Hiroaki Jinno

Subjects

Multidisciplinary, Electric Power Supplies, Materials science, Organic solar cell, business.industry, Photovoltaic system, Transistor, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Flexible electronics, 0104 chemical sciences, law.invention, Responsivity, law, Photovoltaics, Optoelectronics, Electronics, 0210 nano-technology, business

Abstract

Next-generation biomedical devices1-9 will need to be self-powered and conformable to human skin or other tissue. Such devices would enable the accurate and continuous detection of physiological signals without the need for an external power supply or bulky connecting wires. Self-powering functionality could be provided by flexible photovoltaics that can adhere to moveable and complex three-dimensional biological tissues1-4 and skin5-9. Ultra-flexible organic power sources10-13 that can be wrapped around an object have proven mechanical and thermal stability in long-term operation13, making them potentially useful in human-compatible electronics. However, the integration of these power sources with functional electric devices including sensors has not yet been demonstrated because of their unstable output power under mechanical deformation and angular change. Also, it will be necessary to minimize high-temperature and energy-intensive processes10,12 when fabricating an integrated power source and sensor, because such processes can damage the active material of the functional device and deform the few-micrometre-thick polymeric substrates. Here we realize self-powered ultra-flexible electronic devices that can measure biometric signals with very high signal-to-noise ratios when applied to skin or other tissue. We integrated organic electrochemical transistors used as sensors with organic photovoltaic power sources on a one-micrometre-thick ultra-flexible substrate. A high-throughput room-temperature moulding process was used to form nano-grating morphologies (with a periodicity of 760 nanometres) on the charge transporting layers. This substantially increased the efficiency of the organophotovoltaics, giving a high power-conversion efficiency that reached 10.5 per cent and resulted in a high power-per-weight value of 11.46 watts per gram. The organic electrochemical transistors exhibited a transconductance of 0.8 millisiemens and fast responsivity above one kilohertz under physiological conditions, which resulted in a maximum signal-to-noise ratio of 40.02 decibels for cardiac signal detection. Our findings offer a general platform for next-generation self-powered electronics.

Published

2018

115. Inactivation of influenza A virus via exposure to silver nanoparticle-decorated silica hybrid composites

Author

Sungjun Park, Su Jin Lee, Cheonghoon Lee, Kyoungja Woo, GwangPyo Ko, and Young-Seon Ko

Subjects

0301 basic medicine, Silver, Health, Toxicology and Mutagenesis, Reassortment, Drug Evaluation, Preclinical, Metal Nanoparticles, Hemagglutinin (influenza), 02 engineering and technology, medicine.disease_cause, Antiviral Agents, Silver nanoparticle, Madin Darby Canine Kidney Cells, 03 medical and health sciences, Dogs, Influenza A virus, medicine, Animals, Humans, Environmental Chemistry, Cytotoxic T cell, biology, Chemistry, RNA, General Medicine, Silicon Dioxide, 021001 nanoscience & nanotechnology, Pollution, 030104 developmental biology, Membrane, Biophysics, biology.protein, Virus Inactivation, 0210 nano-technology, Neuraminidase

Abstract

Influenza A virus (IFV-A) is one of the main cause of seasonal flu and can infect various of host species via the reassortment of segmented RNA genomes. Silver nanoparticles (AgNPs) have been known as excellent antiviral agent against IFV. However, the use of free AgNPs has several major drawbacks, including the inherent aggregation among AgNPs and unwanted cytotoxic or genotoxic damages for human body via inhalation or ingestion. In this study, we assessed the efficacy of our novel ~ 30-nm-diameter AgNP-decorated silica hybrid composite (Ag30-SiO2; ~ 400 nm in diameter) for IFV-A inactivation. Ag30-SiO2 particles can inhibit IFV-A effectively in a clear dose-dependent manner. However, when real-time RT-PCR assay was used, merely 0.5-log10 reduction of IFV-A was observed at both 5 and 20 °C. Moreover, even after 1 h of exposure to Ag30-SiO2 particles, more than 80% of hemagglutinin (HA) damage and 20% of neuraminidase (NA) activities had occurred, and the infection of Madin-Darby Canine Kidney (MDCK) cells by IFV-A was reduced. The results suggested that the major antiviral mechanism of Ag30-SiO2 particles is the interaction with viral components located at the membrane. Therefore, Ag30-SiO2 particles can cause nonspecific damage to various IFV-A components and be used as an effective method for inactivating IFV-A.

Published

2018

116. Thermally stable, highly efficient, ultraflexible organic photovoltaics

Author

Xiaomin Xu, Takao Someya, Tomoyuki Yokota, Shinjiro Umezu, Nobuhiro Watanabe, Hiroaki Jinno, Hiroki Kimura, Akchheta Karki, Kenjiro Fukuda, Satoru Shimomura, Thuc-Quyen Nguyen, Shuhei Yamamoto, Daisuke Kitazawa, and Sungjun Park

Subjects

Materials science, Organic solar cell, Nanotechnology, 02 engineering and technology, Substrate (electronics), 010402 general chemistry, 01 natural sciences, thermal stability, Engineering, Photovoltaics, Thermal stability, chemistry.chemical_classification, Multidisciplinary, business.industry, Energy conversion efficiency, Polymer, 021001 nanoscience & nanotechnology, Microstructure, 0104 chemical sciences, Active layer, ultraflexibility, chemistry, power conversional efficiency, Physical Sciences, organic photovoltaics, 0210 nano-technology, business

Abstract

Significance We have developed an ultraflexible organic photovoltaic (OPV) that achieves sufficient thermal stability of up to 120 °C and a high power conversion efficiency of 10% with a total thickness of 3 μm. By combining an inherently stable donor:acceptor blend as the active layer and ultrathin substrate and barriers with excellent thermal capability, we were able to overcome the trade-offs between efficiency, stability, and device thickness. The ultraflexible and thermally stable OPV can be easily integrated into textiles through the commercially available hot-melt process without causing performance degradation, thereby presenting great potential as a ubiquitous and wearable power source in daily life., Flexible photovoltaics with extreme mechanical compliance present appealing possibilities to power Internet of Things (IoT) sensors and wearable electronic devices. Although improvement in thermal stability is essential, simultaneous achievement of high power conversion efficiency (PCE) and thermal stability in flexible organic photovoltaics (OPVs) remains challenging due to the difficulties in maintaining an optimal microstructure of the active layer under thermal stress. The insufficient thermal capability of a plastic substrate and the environmental influences cannot be fully expelled by ultrathin barrier coatings. Here, we have successfully fabricated ultraflexible OPVs with initial efficiencies of up to 10% that can endure temperatures of over 100 °C, maintaining 80% of the initial efficiency under accelerated testing conditions for over 500 hours in air. Particularly, we introduce a low-bandgap poly(benzodithiophene-cothieno[3,4-b]thiophene) (PBDTTT) donor polymer that forms a sturdy microstructure when blended with a fullerene acceptor. We demonstrate a feasible way to adhere ultraflexible OPVs onto textiles through a hot-melt process without causing severe performance degradation.

Published

2018

117. Disinfection of various bacterial pathogens using novel silver nanoparticle-decorated magnetic hybrid colloids

Author

SungJun Park, Hye Hun Park, Young-Seon Ko, Su Jin Lee, The Son Le, Kyoungja Woo, and GwangPyo Ko

Subjects

Silver, animal structures, Environmental Engineering, Disinfectant, Microorganism, Metal Nanoparticles, 02 engineering and technology, Bacillus subtilis, 010501 environmental sciences, medicine.disease_cause, 01 natural sciences, Legionella pneumophila, Silver nanoparticle, Microbiology, Magnetics, medicine, Environmental Chemistry, Colloids, Waste Management and Disposal, Escherichia coli, 0105 earth and related environmental sciences, biology, Clostridium perfringens, 021001 nanoscience & nanotechnology, biology.organism_classification, Pollution, Anti-Bacterial Agents, Disinfection, 0210 nano-technology, Bacteria

Abstract

Silver nanoparticles (AgNPs) have long been considered a powerful disinfectant for controlling pathogenic microorganisms. However, AgNPs might have adverse effects on both human health and our ecosystems due to their potential cytotoxicity and the difficulty in recovering them after their release into the environment. In this study, we characterized the antimicrobial efficacy caused by a novel micrometer-sized magnetic hybrid colloid (MHC) containing 7, 15, or 30nm sized monodispersed AgNPs (AgNP-MHCs), which can be re-collected from the environment using simple procedures, such as a magnet or centrifugation. We evaluated the antibacterial capabilities of AgNP-MHCs against target bacteria (Legionella pneumophila, Bacillus subtilis, Escherichia coli, and Clostridium perfringens) and compared them with the inactivation efficacy of AgNPs ~30nm in diameter (nAg30s). Among the different AgNP-MHCs composites evaluated, Ag30-MHCs had the greatest antibacterial effect. After 1h of exposure, more than a 4-log10 reduction of L. pneumophila and 6-log10 reduction of B. subtilis was achieved by 4.6×109particles/mL of Ag30-MHCs and Ag30-MHC-Ls. In addition, Ag30-MHC-Ls maintained their strong antibacterial capabilities under anaerobic conditions. Our results indicate that AgNP-MHCs can be considered excellent tools for controlling waterborne bacterial pathogens, with a minimal risk of release into the environment.

Published

2017

118. High Speed Response Organic Photodetectors with Cascade Buffer Layers

Author

Sungjun Park, Daiki Minami, Naotoshi Suganuma, Kyung-Bae Park, Sungyoung Yun, Byoung-Ki Choi, Younhee Lim, Feifei Fang, and Chul-Joon Heo

Subjects

Materials science, business.industry, Cascade, Optoelectronics, Photodetector, business, Buffer (optical fiber), Electronic, Optical and Magnetic Materials

Published

2021

119. Significant Dark Current Suppression in Organic Photodetectors Using Side Chain Fluorination of Conjugated Polymer

Author

Changjin Lee, Juhyoung Jung, Byoungwook Park, Sung Cheol Yoon, Seung Hun Eom, Seung-Hoon Lee, Minju Kyeong, Seo-Jin Ko, Hanbee Lee, Sungjun Park, and Dae-Hee Lim

Subjects

chemistry.chemical_classification, Materials science, business.industry, Photodetector, Polymer, Conjugated system, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Biomaterials, chemistry, Electrochemistry, Side chain, Optoelectronics, business, Dark current

Published

2021

120. Increasing the Energy Gap between Band‐Edge and Trap States Slows Down Picosecond Carrier Trapping in Highly Luminescent InP/ZnSe/ZnS Quantum Dots

Author

nayoun Won, Jung-Hwa Kim, Dong-Jin Yun, Lim Mi-Hye, Soohwan Sul, Woo Sung Jeon, Changhoon Jung, Shinae Jun, Hyo Sug Lee, Tae-Gon Kim, Sungwoo Hwang, Young Mo Sung, Dong-Su Ko, and Sungjun Park

Subjects

Luminescence, Materials science, business.industry, Band gap, Phonon, Exciton, Quantum yield, General Chemistry, Trapping, Sulfides, Biomaterials, Zinc Compounds, Quantum dot, Picosecond, Quantum Dots, Optoelectronics, General Materials Science, business, Biotechnology

Abstract

Non-toxic InP-based nanocrystals have been developed for promising candidates for commercial optoelectronic applications and they still require further improvement on photophysical properties, compared to Cd-based quantum dots (QDs), for better device efficiency and long-term stability. It is, therefore, essential to understand the precise mechanism of carrier trapping even in the state-of-the-art InP-based QD with near-unity luminescence. Here, it is shown that using time-resolved spectroscopic measurements of systematically size-controlled InP/ZnSe/ZnS core/shell/shell QDs with the quantum yield close to one, carrier trapping decreases with increasing the energy difference between band-edge and trap states, indicating that the process follows the energy gap law, well known in molecular photochemistry for nonradiative internal conversion between two electronic states. Similar to the molecular view of the energy gap law, it is found that the energy gap between the band-edge and trap states is closely associated with ZnSe phonons that assist carrier trapping into defects in highly luminescent InP/ZnSe/ZnS QDs. These findings represent a striking departure from the generally accepted view of carrier trapping mechanism in QDs in the Marcus normal region, providing a step forward understanding how excitons in nanocrystals interact with traps, and offering valuable guidance for making highly efficient and stable InP-based QDs.

Published

2021

121. Highly durable organic photodetector for complementary metal oxide semiconductor image sensors

Author

Chul-Joon Heo, Sungjun Park, Takkyun Ro, Kyung-Bae Park, Takao Motoyama, Gae Hwang Lee, Yong-young Park, Sunghan Kim, Seon-Jeong Lim, Jae-Cheol Lee, Yeon-hee Kim, Kiyohiko Tsutsumi, Jong-Bong Park, Sungyoung Yun, Yong Wan Jin, Yeoung Suk Choi, and Younhee Lim

Subjects

Materials science, Fabrication, Semiconductor device fabrication, Photodetector, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, law.invention, Biomaterials, law, Materials Chemistry, Electrical and Electronic Engineering, Diode, Organic electronics, business.industry, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 0104 chemical sciences, Electronic, Optical and Magnetic Materials, Photodiode, Organic semiconductor, Optoelectronics, 0210 nano-technology, business, Dark current

Abstract

Utilizing organic electronics compatible with conventional semiconductor fabrication processes is extremely difficult because of their low chemical resistivity and poor environmental durability. To preserve the intrinsic functionality of organic materials, only a few fabrication processes can be used. Moreover, it is essential to achieve process expandability and silicon-process compatibility to develop high-resolution electronics suitable for mass production. Therefore, we developed wet-process-compatible organic photodetectors by replacing the conventional shadow-mask process with photolithography. This suppresses particle deposition during the serial fabrication processes, providing high operational stability. The fabricated green organic photodiodes exhibit a low dark current (1.0 × 10−11 A/cm2) with high photon–electron conversion efficiency (EQE = 65%). The charge collection and charge separation efficiencies are stable (ηcc = 84.6% and ηcs = 97.7%, respectively). Moreover, the organic semiconductors are compatible with conventional wet- and dry-etching processes owing to thin-film encapsulation layers. Finally, the novel organic image sensor can withstand 500 h under 85 °C/85% relative humidity and 1000 thermal cycles (−55–125 °C). Because of its robustness and strong barrier properties, the novel process architecture reported herein can be extended to any organic electronic devices, including widely commercialized organic light-emitting diodes and organic photovoltaic devices.

Published

2021

122. Effects of the Position and Orientation Inaccuracies in Haptic Guidance on the Task Performance in Teleoperation Systems

Author

Sangsoo Park, Hyoung Il Son, Sungjun Park, and Chanyoung Ju

Subjects

0209 industrial biotechnology, Computer science, Orientation (computer vision), business.industry, Applied Mathematics, 02 engineering and technology, Task (project management), 020901 industrial engineering & automation, Control and Systems Engineering, Position (vector), Teleoperation, Computer vision, Artificial intelligence, business, Software, Haptic technology

Published

2017

123. Effects of the Position and Orientation Inaccuracies in Haptic Guidance on the Task Performance in Teleoperation Systems : Peg-in-hole Task

Author

Hyoung Il Son, Sangsoo Park, Sungjun Park, and Chanyoung Ju

Subjects

0209 industrial biotechnology, Orientation (computer vision), business.industry, Computer science, Applied Mathematics, 02 engineering and technology, Peg in hole, Task (project management), 020901 industrial engineering & automation, Control and Systems Engineering, Position (vector), Teleoperation, Computer vision, Artificial intelligence, business, Software, Simulation, Haptic technology

Published

2017

124. Stretchable and waterproof elastomer-coated organic photovoltaics for washable electronic textile applications

Author

Sungjun Park, Mari Koizumi, Tomoyuki Yokota, Hiroaki Jinno, Takao Someya, Xiaomin Xu, Yasuhito Suzuki, Itaru Osaka, Kenjiro Fukuda, and Kazuo Takimiya

Subjects

Materials science, Organic solar cell, Renewable Energy, Sustainability and the Environment, business.industry, Photovoltaic system, Energy Engineering and Power Technology, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Elastomer, 01 natural sciences, Energy storage, 0104 chemical sciences, Electronic, Optical and Magnetic Materials, Fuel Technology, Photovoltaics, Building-integrated photovoltaics, 0210 nano-technology, business, Wearable technology, Efficient energy use

Abstract

Textile-compatible photovoltaics play a crucial role as a continuous source of energy in wearable devices. In contrast to other types of energy harvester, they can harvest sufficient electricity (on t he order of milliwatts) for wearable devices by utilizing the cloth itself as the platform for photovoltaics. Three features are important for textile-compatible photovoltaics, namely environmental stability, sufficient energy efficiency and mechanical robustness. However, achieving these simultaneously remains difficult because of the low gas barrier properties of ultrathin superstrates and substrates. Here, we report on ultraflexible organic photovoltaics coated on both sides with elastomer that simultaneously realize stretchability and stability in water whilst maintaining a high efficiency of 7.9%. The efficiency of double-side-coated devices decreases only by 5.4% after immersion in water for 120 min. Furthermore, the efficiency of the devices remains at 80% of the initial value even after 52% mechanical compression for 20 cycles with 100 min of water exposure. Organic solar cells can be thin, bendable and strechable. Now, Jinno et al. develop flexible organic photovoltaic devices that can also be washed in water and detergent, opening future integration routes into everyday objects such as fabric.

Published

2017

125. Sol-gel metal oxide dielectrics for all-solution-processed electronics

Author

Sungjun Park, Myung-Han Yoon, Won-June Lee, Sujin Sung, and Chang-Hyun Kim

Subjects

Materials science, Mechanical Engineering, Oxide, Nanotechnology, 02 engineering and technology, Dielectric, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Mechanics of Materials, Flexible display, Thin-film transistor, Printed electronics, General Materials Science, Electronics, 0210 nano-technology, Material properties, MOX fuel

Abstract

Metal oxide (MOx) dielectric materials are considered to be a key element for diverse thin-film electronic systems owing to their superior electrical and mechanical properties. While the vast majority of conventional methods for processing these materials rely on vacuum-based deposition, which seriously limits their potential for practical applications, the solution-based deposition of sol-gel MOx materials can ideally reduce both material and processing costs by introducing large-area printing methods. Nonetheless, the fundamental understanding of their film-forming mechanisms and optimum device architectures is still immature, and significant efforts should be devoted to reducing both temperature and duration for MOx polycondensation and film densification. This article reviews recent advances in solution-based MOx dielectric materials, with a specific focus on the extensive categorization of their structures/compositions and on advanced approaches for realizing ultimate material properties and next-generation device platforms. We expect that this review will manifest the strong potentials of sol-gel MOx dielectric materials toward all-solution-processed low-voltage transparent electronics with freedom in mechanical form factors along with unrivaled performance.

Published

2017

126. Gender differences in Korean adolescents who died by suicide based on teacher reports

Author

Hyun Ju Hong, Song Jung, Ah Reum Kim, Hyeji Jung, Sungjun Park, Hannah Cho, Dayoung Lee, Bo-Ram Shin, Kyung Hee Yoon, Eun-Jin Lee, Kangwoo Lee, and Yong-Sil Kweon

Subjects

medicine.medical_specialty, Adolescent, lcsh:RC435-571, education, Poison control, Suicide prevention, Occupational safety and health, 03 medical and health sciences, 0302 clinical medicine, lcsh:Psychiatry, Injury prevention, Child and adolescent psychiatry, medicine, 0501 psychology and cognitive sciences, 05 social sciences, lcsh:RJ1-570, Gender, Human factors and ergonomics, lcsh:Pediatrics, Mental health, 030227 psychiatry, Suicide, Psychiatry and Mental health, Suicide methods, Pediatrics, Perinatology and Child Health, Psychology, Research Article, 050104 developmental & child psychology, Clinical psychology

Abstract

Background We investigated the characteristics of adolescents who committed suicide in South Korea, and how these characteristics differed by gender. Method Data from middle and high school students who committed suicide between 2014 and 2016 were analyzed. We evaluated differences in suicide method and place, personal characteristics, and school life characteristics by gender using the Chi square test and t test. Results Jumping from a high place was the most common suicide method for both male and female students. A significantly greater proportion of female adolescents had experienced depressive symptoms, previous self-injury, previous suicide attempts, and had problems with school attendance and peers. Additionally, they were more likely to be classified as high risk according to a school-based mental health screening test and to utilize professional mental health treatment services. Conclusion Our results demonstrate that adolescents who committed suicide exhibited gender differences in personal characteristics and school life. These characteristics might aid in the development of adolescent suicide policies and intervention programs. Electronic supplementary material The online version of this article (10.1186/s13034-019-0274-3) contains supplementary material, which is available to authorized users.

Published

2019

127. MOESM1 of Gender differences in Korean adolescents who died by suicide based on teacher reports

Author

Jung, Song, Dayoung Lee, Sungjun Park, Kangwoo Lee, Yong-Sil Kweon, Lee, Eun-Jin, Yoon, Kyung, Cho, Hannah, Hyeji Jung, Kim, Ah, Bo-Ram Shin, and Hong, Hyun

Abstract

Additional file 1: Table S1. Contents of student suicide case report.

Published

2019

128. Correction to 'Green-Light-Selective Organic Photodiodes with High Detectivity for CMOS Color Image Sensors'

Author

Younhee Lim, Taejin Choi, Hyesung Choi, Tadao Yagi, Chul-Joon Heo, Jisoo Shin, Daiki Minami, Kyung-Bae Park, Sungjun Park, Dong-Seok Leem, Sungyoung Yun, and Sunghan Kim

Subjects

Materials science, CMOS, Color image, law, business.industry, Optoelectronics, General Materials Science, Green-light, business, Photodiode, law.invention

Published

2021

129. Projected predictive Energy-Bounding Approach for multiple degree-of-freedom haptic teleoperation

Author

Riaz Uddin, Sangsoo Park, Jeha Ryu, and Sungjun Park

Subjects

0209 industrial biotechnology, Engineering, business.industry, Robotics, 02 engineering and technology, Object (computer science), Computer Science Applications, Computer Science::Robotics, 020303 mechanical engineering & transports, 020901 industrial engineering & automation, 0203 mechanical engineering, Control and Systems Engineering, Distortion problem, Bounding overwatch, Control theory, Teleoperation, Projection method, Artificial intelligence, business, Energy (signal processing), Computer Science::Information Theory, Haptic technology

Abstract

This paper presents a geometrically and dynamically transparent projected predictive Energy-Bounding Approach (EBA) for multiple degree-of-freedom (m-DOF) haptic teleoperation with time delays. The straightforward extension of a single-DOF teleoperation to m-DOF teleoperation suffers from a bad force distortion problem that becomes worse with the increase in communication time delays between master and slave sites. Due to this, geometry perception of remote m-DOF objects at master site is severely deteriorated. To solve this problem, a projected predictive m-DOF EBA is proposed by combining the m-DOF Predictive EBA and the projection method that can compensate the force distortion problem. The proposed approach also includes steps to get stably the information about the contact locations (geometry) of m-DOF remote objects without geometry detection sensors. In order to validate the proposed approach, some experiments performing surface contour-following are conducted using two Phantoms: (i) 2-DOF object (bobbin), and (ii) 3-DOF semi-spherical object in the presence of large time delays.

Published

2016

130. Phosphonic Acid Stabilized Colloidal CsPbX3(X=Br, I) Perovskite Nanocrystals and Their Surface Chemistry

Author

Weon-kyu Koh, Sungjun Park, and Yongnam Ham

Subjects

Photoluminescence, Materials science, Ligand, Inorganic chemistry, Halide, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Mass spectrometry, 01 natural sciences, 0104 chemical sciences, Metal, Colloid, Nanocrystal, visual_art, visual_art.visual_art_medium, 0210 nano-technology, Perovskite (structure)

Abstract

We demonstrate the improved stability of colloidal CsPbX3 (X=Br, I) perovskite nanocrystals (NCs) using the phosphonic acid ligand. Photoluminescence spectra indicated that the phosphonic acid-based CsPbX3 perovskite NCs had stable optical properties in solution, and inductively coupled plasma-mass spectrometry provided a deeper insight of their decomposition mechanism and the surface chemistry of CsPbX3 NCs. With the aid of liquid chromatography-mass spectrometry, we show more detail in the ligand binding of NC solutions, suggesting that strong binding of phosphonic acid ligands is the key to stabilize the NC structures, probably with both metal and halide ions on the NC surface.

Published

2016

131. 71-5: In-Depth Study on Large-Area Bar-Printing and Selective-Area Direct Patterning of Metal Oxide Dielectrics for High-Performance Transistor Application

Author

Yong-Young Noh, Won-Tae Park, Myung-Han Yoon, Sungjun Park, and Won-June Lee

Subjects

Materials science, business.industry, Transistor, Oxide, 02 engineering and technology, Dielectric, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Selective surface, 0104 chemical sciences, law.invention, chemistry.chemical_compound, Semiconductor, chemistry, law, Thin-film transistor, Optoelectronics, Wetting, 0210 nano-technology, business, Nanoscopic scale

Abstract

A simple and unidirectional printing of sol-gel metal oxide dielectric layers via bar-coating was successfully demonstrated while the nanoscale control of ultrathin film thickness (6 ∼ 30 nm) and the excellent insulating performance were achieved. According to various physical and electrical characterizations, the present bar-printing method enabled to fabricate smooth, dense, and uniform thin oxide films which were comparable to or slightly better than those prepared by spin-coating. Finally, both semiconductor and dielectric films were successively patterned by bar-printing employing the phenomenon of selective surface wetting, leading to high-performance low-voltage all-solution processed metal oxide transistors.

Published

2016

132. Energy efficiency in Korea: analysis using a hybrid DEA model

Author

Jin-Soo Kim and Sungjun Park

Subjects

Engineering, 021103 operations research, Environmental Engineering, Index (economics), Artificial neural network, business.industry, 020209 energy, 0211 other engineering and technologies, 02 engineering and technology, Energy consumption, Pollution, Energy accounting, Energy policy, 0202 electrical engineering, electronic engineering, information engineering, Econometrics, Benchmark (computing), Data envelopment analysis, business, Waste Management and Disposal, Efficient energy use

Abstract

Given the increasing importance of energy efficiency, we appraise the situation in Korea by analyzing past energy consumption patterns. By using a modified hybrid model of index decomposition analysis, artificial neural network (ANN), and data envelopment analysis (DEA), we predict the optimal energy consumption and estimate the difference between the optimal and real values. We decompose primary energy consumption considering the energy loss in a transformation, correcting the over-fitting problem in ANN, and addressing the negative value issue in DEA. We find that energy consumption was the most efficient between 1993 and 1994, 1994 and 1995, 1997 and 1998, and 1999 and 2000. If the over-fitting and negative value problems are properly controlled, the presented LMDI-ANN-DEA hybrid model can be used to predict energy efficiency. The results of this study would be useful to analyze energy consumption patterns in the benchmark years of Korea and help the government formulate a suitable energy policy.

Published

2016

133. An Application of Grey Neural Network for Forecasting Short-term Natural Gas Consumption of Korea

Author

Sungjun Park and Jinsoo Kim

Published

2016

134. Assessment Report of Bacterial Contamination in Some School Dining Services with Table Swabs and Air Samples

Author

JiYean Ko, JaeYoon Lee, Sungjun Park, GwangPyo Ko, Juhae Sohn, Sungkyoon Kim, HeaYong Jung, Inae Lee, and NaYun Ko

Subjects

Veterinary medicine, Food poisoning, business.industry, Microorganism, digestive, oral, and skin physiology, education, Bacillus cereus, Biology, Contamination, Food safety, biology.organism_classification, medicine.disease, medicine.disease_cause, Biotechnology, Total coliform, Cereus, Staphylococcus aureus, medicine, business

Abstract

Objectives: The aim of this study is to investigate microbial contamination in the school food service environment for the assessment of microbial food safety. Methods: We collected both swab samples from tables and desks and airborne bacterial samples from an elementary school (School A) and a high school (School B). Heterotrophic plate count, total coliform, Staphylococcus aureus, and Bacillus cereus were measured with selective media to quantify microbial concentration. PCR assay targeting 16S rRNA genes was performed to identify the strains of S. aureus and B. cereus isolated. In addition, we made a food service checklist for the locations to evaluate the food service environment. A Wilcoxon test was employed to examine the differences in microbial concentration between before lunchtime and afterwards. Results: Heterotrophic plate counts showed higher levels after-lunch compared to before-lunch at School B. However, levels of S. aureus were higher in the after-lunch period (p

Published

2015

135. Developing a Mobile App for Monitoring Medical Record Changes Using Blockchain: Development and Usability Study

Author

SungJun Park, E. Lee, Yu Rang Park, Jaehoon Lee, Sungjae Jung, and MinDong Sung

Subjects

Adult, Male, blockchain, Blockchain, 020205 medical informatics, Computer science, Health Informatics, 02 engineering and technology, lcsh:Computer applications to medicine. Medical informatics, Proof of Concept Study, Young Adult, 03 medical and health sciences, Upload, Surveys and Questionnaires, Health care, 0202 electrical engineering, electronic engineering, information engineering, medicine, Electronic Health Records, Humans, monitoring app, 030304 developmental biology, Digital literacy, Original Paper, 0303 health sciences, business.industry, lcsh:Public aspects of medicine, System usability scale, Medical record, lcsh:RA1-1270, Usability, Middle Aged, medicine.disease, Mobile Applications, clinical documents, lcsh:R858-859.7, Female, Observational study, Medical emergency, business

Abstract

Background Although we are living in an era of transparency, medical documents are often still difficult to access. Blockchain technology allows records to be both immutable and transparent. Objective Using blockchain technology, the aim of this study was to develop a medical document monitoring system that informs patients of changes to their medical documents. We then examined whether patients can effectively verify the monitoring of their primary care clinical medical records in a system based on blockchain technology. Methods We enrolled participants who visited two primary care clinics in Korea. Three substudies were performed: (1) a survey of the recognition of blockchain medical records changes and the digital literacy of participants; (2) an observational study on participants using the blockchain-based mobile alert app; and (3) a usability survey study. The participants’ medical documents were profiled with HL7 Fast Healthcare Interoperability Resources, hashed, and transacted to the blockchain. The app checked the changes in the documents by querying the blockchain. Results A total of 70 participants were enrolled in this study. Considering their recognition of changes to their medical records, participants tended to not allow these changes. Participants also generally expressed a desire for a medical record monitoring system. Concerning digital literacy, most questions were answered with “good,” indicating fair digital literacy. In the second survey, only 44 participants—those who logged into the app more than once and used the app for more than 28 days—were included in the analysis to determine whether they exhibited usage patterns. The app was accessed a mean of 5.1 (SD 2.6) times for 33.6 (SD 10.0) days. The mean System Usability Scale score was 63.21 (SD 25.06), which indicated satisfactory usability. Conclusions Patients showed great interest in a blockchain-based system to monitor changes in their medical records. The blockchain system is useful for informing patients of changes in their records via the app without uploading the medical record itself to the network. This ensures the transparency of medical records as well as patient empowerment.

Published

2020

136. Effect of potential and current on electrodeposited MnO2 as a pseudocapacitor electrode: Surface morphology/chemistry and stability

Author

Sang-Eun Chun, Sehun Han, Sungjun Park, Seong Hoon Yi, and Won Bin Im

Subjects

Chemistry, Mechanical Engineering, Metals and Alloys, Nucleation, Oxygen evolution, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Microstructure, 01 natural sciences, Capacitance, 0104 chemical sciences, Amorphous solid, Chemical engineering, Mechanics of Materials, Specific surface area, Pseudocapacitor, Electrode, Materials Chemistry, 0210 nano-technology

Abstract

Amorphous MnO2 (a-MnO2) that exhibits a high theoretical specific capacitance can be conveniently grown via electrodeposition as a pseudocapacitor electrode. However, the electrodeposited a-MnO2 exhibits lower electrochemical stability than a-MnO2 synthesized using other routes. We investigate the influence of the electrodeposition conditions on the evolution of the properties of a-MnO2 during electrodeposition and their corresponding effect on the electrochemical stability. MnO2 is electrodeposited at potentiostatic and galvanostatic mode. The different surface morphology/chemistry of a-MnO2 is obtained by applying high and low potentials or current. The applied potential or current determines the surface morphology based on a predominance between nucleation and growth of a-MnO2. The fine surface enables a higher specific capacitance because of the enlarged specific surface area but also leads to lower rate performance by limiting ion transport through the smaller microstructure. The opposite results are observed in a coarse MnO2 deposit. When the applied potential or current is high, the manganese has a lower average valence number. The lifetime of a-MnO2 is degraded by the irreversible reaction between Mn4+/Mn7+ and oxygen evolution. Particularly, finer MnO2 is less stable than coarse one, which can arise from multiple high-energy connecting sites. A narrow potential window without Mn4+/Mn7+ interconversion promotes long-term stability.

Published

2020

137. Is Blockchain Technology Suitable for Managing Personal Health Records? Mixed-Methods Study to Test Feasibility

Author

SungJun Park, Yu Rang Park, Wonjun Na, Jae-Ho Lee, E. Lee, and Yura Lee

Subjects

Adult, Male, blockchain, Blockchain, Computer science, Health Informatics, computer.software_genre, Ethereum, Node (computer science), Humans, Personal health, mobile health, Computer Security, Block (data storage), Original Paper, Data collection, Database, Transaction time, Reproducibility of Results, personal health record, Middle Aged, Telemedicine, Test (assessment), Health Records, Personal, Feasibility Studies, Female, Gas consumption, computer, Delivery of Health Care

Abstract

Background: There are many perspectives on the advantages of introducing blockchain in the medical field, but there are no published feasibility studies regarding the storage, propagation, and management of personal health records (PHRs) using blockchain technology. Objective: The purpose of this study was to investigate the usefulness of blockchains in the medical field in relation to transactions with and propagation of PHRs in a private blockchain. Methods: We constructed a private blockchain network using Ethereum version 1.8.4 and conducted verification using the de-identified PHRs of 300 patients. The private blockchain network consisted of one hospital node and 300 patient nodes. In order to verify the effectiveness of blockchain-based PHR management, PHRs at a time were loaded in a transaction between the hospital and patient nodes and propagated to the whole network. We obtained and analyzed the time and gas required for data transaction and propagation on the blockchain network. For reproducibility, these processes were repeated 100 times. Results: Of 300 patient records, 74 (24.7%) were not loaded in the private blockchain due to the data block size of the transaction block. The remaining 226 individual health records were classified into groups A (80 patients with outpatient visit data less than 1 year old), B (84 patients with outpatient data from between 1 and 3 years before data collection), and C (62 patients with outpatient data 3 to 5 years old). With respect to mean transaction time in the blockchain, C (128.7 seconds) had the shortest time, followed by A (132.2 seconds) and then B (159.0 seconds). The mean propagation times for groups A, B, and C were 1494.2 seconds, 2138.9 seconds, and 4111.4 seconds, respectively; mean file sizes were 5.6 KB, 18.6 KB, and 45.38 KB, respectively. The mean gas consumption values were 1,900,767; 4,224,341; and 4,112,784 for groups A, B, and C, respectively. Conclusions: This study confirms that it is possible to exchange PHR data in a private blockchain network. However, to develop a blockchain-based PHR platform that can be used in practice, many improvements are required, including reductions in data size, improved personal information protection, and reduced operating costs.

Published

2018

138. Is Blockchain Technology Suitable for Managing Personal Health Records? Mixed-Methods Study to Test Feasibility (Preprint)

Author

Yu Rang Park, Eunsol Lee, Wonjun Na, Sungjun Park, Yura Lee, and Jae-Ho Lee

Abstract

BACKGROUND There are many perspectives on the advantages of introducing blockchain in the medical field, but there are no published feasibility studies regarding the storage, propagation, and management of personal health records (PHRs) using blockchain technology. OBJECTIVE The purpose of this study was to investigate the usefulness of blockchains in the medical field in relation to transactions with and propagation of PHRs in a private blockchain. METHODS We constructed a private blockchain network using Ethereum version 1.8.4 and conducted verification using the de-identified PHRs of 300 patients. The private blockchain network consisted of one hospital node and 300 patient nodes. In order to verify the effectiveness of blockchain-based PHR management, PHRs at a time were loaded in a transaction between the hospital and patient nodes and propagated to the whole network. We obtained and analyzed the time and gas required for data transaction and propagation on the blockchain network. For reproducibility, these processes were repeated 100 times. RESULTS Of 300 patient records, 74 (24.7%) were not loaded in the private blockchain due to the data block size of the transaction block. The remaining 226 individual health records were classified into groups A (80 patients with outpatient visit data less than 1 year old), B (84 patients with outpatient data from between 1 and 3 years before data collection), and C (62 patients with outpatient data 3 to 5 years old). With respect to mean transaction time in the blockchain, C (128.7 seconds) had the shortest time, followed by A (132.2 seconds) and then B (159.0 seconds). The mean propagation times for groups A, B, and C were 1494.2 seconds, 2138.9 seconds, and 4111.4 seconds, respectively; mean file sizes were 5.6 KB, 18.6 KB, and 45.38 KB, respectively. The mean gas consumption values were 1,900,767; 4,224,341; and 4,112,784 for groups A, B, and C, respectively. CONCLUSIONS This study confirms that it is possible to exchange PHR data in a private blockchain network. However, to develop a blockchain-based PHR platform that can be used in practice, many improvements are required, including reductions in data size, improved personal information protection, and reduced operating costs.

Published

2018

139. Influence of PEDOT:PSS crystallinity and composition on electrochemical transistor performance and long-term stability

Author

Nara Kim, Chang-Hyun Kim, Kwanghee Lee, Do-Kyun Kim, Jonathan Rivnay, Youngseok Kim, Eun-Hak Lee, Seong-Min Kim, Sungjun Park, Myung-Han Yoon, and Won-June Lee

Subjects

Solid-state chemistry, Materials science, Science, Materialkemi, General Physics and Astronomy, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, law.invention, Crystallinity, PEDOT:PSS, law, Materials Chemistry, lcsh:Science, Conductive polymer, Bioelectronics, Multidisciplinary, Aqueous solution, Transistor, General Chemistry, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Chemical engineering, lcsh:Q, 0210 nano-technology, Organic electrochemical transistor

Abstract

Owing to the mixed electron/hole and ion transport in the aqueous environment, poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate)-based organic electrochemical transistor has been regarded as one of the most promising device platforms for bioelectronics. Nonetheless, there exist very few in-depth studies on how intrinsic channel material properties affect their performance and long-term stability in aqueous environments. Herein, we investigated the correlation among film microstructural crystallinity/composition, device performance, and aqueous stability in poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) films. The highly organized anisotropic ordering in crystallized conducting polymer films led to remarkable device characteristics such as large transconductance (similar to 20 mS), extraordinary volumetric capacitance (113 F.cm(-3)), and unprecedentedly high [mu C*] value (similar to 490 F.cm(-1) V-1 s(-1)). Simultaneously, minimized poly(styrenesulfonate) residues in the crystallized film substantially afforded marginal film swelling and robust operational stability even after amp;gt;20-day water immersion, amp;gt;2000-time repeated on-off switching, or high-temperature/pressure sterilization. We expect that the present study will contribute to the development of long-term stable implantable bioelectronics for neural recording/stimulation. Funding Agencies|National Research Foundation of Korea (NRF) - Ministry of Science and ICT [NRF-2017R1A2B4003873, NRF-2018M3A7B4070988, NRF-2018M3D1A1051602]

Published

2018

140. The Capicua/ETS Translocation Variant 5 Axis Regulates Liver-Resident Memory CD8

Author

Sungjun, Park, Jiho, Park, Eunjeong, Kim, and Yoontae, Lee

Subjects

DNA-Binding Proteins, Male, Mice, Inbred C57BL, Repressor Proteins, Random Allocation, Liver, Animals, Female, CD8-Positive T-Lymphocytes, Chemical and Drug Induced Liver Injury, Immunologic Memory, Acetaminophen, Transcription Factors

Abstract

Liver-resident memory T (liver T

Published

2018

141. Host-Specific Bacteroides Markers-Based Microbial Source Tracking in Aquaculture Areas

Author

Hye Young, Ko, Kyuseon, Cho, SungJun, Park, Jin Hwi, Kim, Joo-Hyon, Kang, Yong Seok, Jeong, Jong Duck, Choi, Yongsik, Sin, Cheonghoon, Lee, and GwangPyo, Ko

Subjects

DNA, Bacterial, Genetic Markers, Spatial Analysis, Norovirus, Water Pollution, food and beverages, Aquaculture, Articles, Host Specificity, Republic of Korea, fecal contamination, Escherichia coli, Geographic Information Systems, Animals, Bacteroides, Humans, RNA, Viral, geographic information system, Seasons, host-specific Bacteroides markers, microbial source tracking, Water Microbiology, noroviruses, Environmental Monitoring

Abstract

Various waterborne pathogens originate from human or animal feces and may cause severe gastroenteric outbreaks. Bacteroides spp. that exhibit strong host- or group-specificities are promising markers for identifying fecal sources and their origins. In the present study, 240 water samples were collected from two major aquaculture areas in Republic of Korea over a period of approximately 1 year, and the concentrations and occurrences of four host-specific Bacteroides markers (human, poultry, pig, and ruminant) were evaluated in the study areas. Host-specific Bacteroides markers were detected widely in the study areas, among which the poultry-specific Bacteroides marker was detected at the highest concentration (1.0–1.2 log10 copies L−1). During the sampling period, high concentrations of host-specific Bacteroides markers were detected between September and December 2015. The host-specific Bacteroides marker-combined geospatial map revealed the up-to-downstream gradient of fecal contamination, as well as the effects of land-use patterns on host-specific Bacteroides marker concentrations. In contrast to traditional bacterial indicators, the human-specific Bacteroides marker correlated with human specific pathogens, such as noroviruses (r=0.337; P

Published

2018

142. Comparison of Swab Sampling Methods for Norovirus Recovery on Surfaces

Author

GwangPyo Ko, Ju Eun Yoo, Sungjun Park, Cheonghoon Lee, Kyuseon Cho, and Sunghee Lee

Subjects

0301 basic medicine, Epidemiology, Health, Toxicology and Mutagenesis, 030106 microbiology, ved/biology.organism_classification_rank.species, medicine.disease_cause, Real-Time Polymerase Chain Reaction, 03 medical and health sciences, Mice, Virology, medicine, Animals, Humans, Caliciviridae Infections, Chromatography, ved/biology, Chemistry, Elution, Reverse Transcriptase Polymerase Chain Reaction, Norovirus, Sampling (statistics), Stainless Steel, Wood, RAW 264.7 Cells, Polyethylene, Fomites, Plastics, Food Science, Murine norovirus

Abstract

Human noroviruses (HuNoVs) can be easily transferred by the contacts of humans or fomites. Swab sampling methods are widely used for recovering HuNoVs from small surfaces of various fomites or hard-to-reach locations and swab sampling conditions are important for the accurate detection of HuNoVs, which have a low infectious dose and relatively long persistence under a range of environmental conditions. Therefore, to determine the suitable swab sampling method for recovering HuNoVs from various surfaces, we evaluated combinations of four swab materials (cotton, microdenier polyester [a type of microfiber], polyurethane foam, and rayon) and three elution buffer solutions (phosphate-buffered saline [PBS], PBS with 0.2% Tween-80, and 3% beef extract-50 mM glycine [pH 9.5]). First, we inoculated HuNoVs or murine noroviruses (MuNoVs), the surrogate of HuNoVs, onto test coupons (10 × 10 cm) consisting of three common surface materials (high-density polyethylene, stainless steel, and wood). Coupons were swabbed using a combination of each swab material and elution buffer, and the viral recovery was measured by real-time reverse transcription quantitative polymerase chain reaction (RT-qPCR) or plaque assay. By RT-qPCR, we confirmed that the cotton swab-PBS and microdenier polyester-PBS combinations had recovery efficiencies greater than 80% for viruses on plastic and stainless steel surfaces. The cotton swab-PBS combination had the highest recovery efficiency on all surface materials via the plaque assay. Therefore, a cotton or a microdenier polyester swab with PBS could be a useful method for sampling HuNoVs on various surfaces.

Published

2018

143. Ultraflexible Near-Infrared Organic Photodetectors for Conformal Photoplethysmogram Sensors

Author

Kenjiro Fukuda, Tomoyuki Yokota, Shinjiro Umezu, Ming Wang, Sungjun Park, Hiroki Kimura, Hiroaki Jinno, Takao Someya, Naoji Matsuhisa, Chulhyo Lee, Peter Zalar, Hanbit Jin, and Guillermo C. Bazan

Subjects

Materials science, business.industry, Mechanical Engineering, Bend radius, Optical physics, Photodetector, 02 engineering and technology, Bending, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Polymer solar cell, 0104 chemical sciences, Active layer, Responsivity, Mechanics of Materials, Photoplethysmogram, Optoelectronics, General Materials Science, 0210 nano-technology, business

Abstract

Flexible organic optoelectronic devices simultaneously targeting mechanical conformability and fast responsivity in the near-infrared (IR) region are a prerequisite to expand the capabilities of practical optical science and engineering for on-skin optoelectronic applications. Here, an ultraflexible near-IR responsive skin-conformal photoplethysmogram sensor based on a bulk heterojunction photovoltaic active layer containing regioregular polyindacenodithiophene-pyridyl[2,1,3]thiadiazole-cyclopentadithiophene (PIPCP) is reported. The ultrathin (3 µm thick) photodetector exhibits unprecedented operational stability under severe mechanical deformation at a bending radius of less than 3 µm, even after more than 103 bending cycles. Deliberate optimization of the physical dimensions of the active layer used in the device enables precise on/off switching and high device yield simultaneously. The response frequency over 1 kHz under mechanically deformed conditions facilitates conformal electronic sensors at the machine/human interface. Finally, a mechanically stretchable, flexible, and skin-conformal photoplethysmogram (PPG) device with higher sensitivity than those of rigid devices is demonstrated, through conformal adherence to the flexuous surface of a fingerprint.

Published

2018

144. Use of coliphages to investigate norovirus contamination in a shellfish growing area in Republic of Korea

Author

Cheonghoon Lee, Yong Seok Jeong, Jong Duck Choi, Eung Seo Koo, Sungjun Park, Joo-Hyon Kang, Man Su Kim, Hyun Jin Yoon, Yong Seon Choi, Kyuseon Cho, Jin Hwi Kim, and GwangPyo Ko

Subjects

0301 basic medicine, Veterinary medicine, Health, Toxicology and Mutagenesis, 030106 microbiology, Food Contamination, medicine.disease_cause, Coliphages, 03 medical and health sciences, Feces, fluids and secretions, Republic of Korea, medicine, Environmental Chemistry, Ecotoxicology, Animals, Humans, Coliphage, Shellfish, biology, Norovirus, Outbreak, General Medicine, Contamination, biology.organism_classification, Pollution, Fecal coliform, Geographic Information Systems, Water Microbiology, Environmental Monitoring

Abstract

A number of severe norovirus outbreaks due to the consumption of contaminated shellfish have been reported recently. In this study, we evaluated the distribution of coliphage densities to determine their efficacy as fecal indicators of enteric viruses, including noroviruses, in water samples collected from a shellfish growing area in Republic of Korea over a period of approximately 1 year. Male-specific and somatic coliphages in water samples were analyzed using the single agar layer method, and norovirus genogroups I and II, which infect mainly humans, were analyzed using duplex reverse transcription quantitative PCR. Male-specific and somatic coliphages were detected widely throughout the study area. Several environmental parameters, including salinity, precipitation, temperature, and wind speed were significantly correlated with coliphage concentrations (P

Published

2018

145. Direct Observation of a Transiently Formed Isomer During Iodoform Photolysis in Solution by Time-Resolved X-ray Liquidography

Author

Jiwon Moon, Joonghan Kim, Jeongho Kim, Chi Woo Ahn, Hosung Ki, Michael Wulff, Kyung Hwan Kim, Sungjun Park, Hyotcherl Ihee, Martin Nors Pedersen, Qingyu Kong, and Yunbeom Lee

Subjects

Reaction mechanism, Cyclohexane, 010405 organic chemistry, Branching fraction, Radical, Photodissociation, X-ray, chemistry.chemical_element, 010402 general chemistry, Iodoform, Photochemistry, Iodine, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, chemistry, General Materials Science, Physical and Theoretical Chemistry

Abstract

Photolysis of iodoform (CHI3) in solution has been extensively studied, but its reaction mechanism remains elusive. In particular, iso-iodoform (iso-CHI2–I) is formed as a product of the photolysis reaction, but its detailed structure is not known, and whether it is a major intermediate species has been controversial. Here, by using time-resolved X-ray liquidography, we determined the reaction mechanism of CHI3 photodissociation in cyclohexane as well as the structure of iso-CHI2–I. Both iso-CHI2–I and CHI2 radical were found to be formed within 100 ps with a branching ratio of 40:60. Iodine radicals (I), formed during the course of CHI3 photolysis, recombine nongeminately with either CHI2 or I. Based on our structural analysis, the I–I distance and the C–I–I angle of iso-CHI2–I were determined to be 2.922 ± 0.004 A and 133.9 ± 0.8°, respectively.

Published

2018

146. Ultrafast Photocurrent Measurements of Bulk-Conduction Induced Spin Hall Effect in the Topological Insulator Bi2Se3

Author

Hoil Kim, Seungwan Cho, Soo Hyun Park, Dohun Kim, Jehyun Kim, Sungjun Park, Sangwan Sim, Jekwan Lee, Sooun Lee, Junsung Kim, Hyunyong Choi, and Wooyoung Shim

Subjects

0301 basic medicine, Photocurrent, Materials science, Condensed matter physics, Scattering, Photoconductivity, Relaxation (NMR), 02 engineering and technology, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, 021001 nanoscience & nanotechnology, Thermal conduction, 03 medical and health sciences, 030104 developmental biology, Topological insulator, Spin Hall effect, Condensed Matter::Strongly Correlated Electrons, 0210 nano-technology, Spin-½

Abstract

We have measured the temporally-resolved helicity-dependent photocurrent at the Bi 2 Se 3 topological insulator and identified that the skew scattering induces spin Hall effect while the spin suffers Elliott-Yafet relaxation at the bulk state of the Bi 2 Se 3 .

Published

2018

147. Sound Blocking Using Acoustic Metamaterial Scaling

Author

SungJun Park, Kyungjun Song, and Jedo Kim

Subjects

geography, Materials science, geography.geographical_feature_category, Acoustics and Ultrasonics, Blocking (radio), Applied Mathematics, Acoustics, Multiphysics, Metamaterial, Speech and Hearing, Signal Processing, Instrumentation, Scaling, Sound (geography)

Published

2015

148. In-Depth Studies on Rapid Photochemical Activation of Various Sol-Gel Metal Oxide Films for Flexible Transparent Electronics

Author

Hyun Jae Kim, Myung-Han Yoon, Yong-Hoon Kim, Sujin Sung, Sungjun Park, Kyung-Tae Kim, Jeong-Wan Jo, Sung Kyu Park, Won-June Lee, Jaekyun Kim, Gi-Ra Yi, and Kwang Ho Kim

Subjects

Materials science, Fabrication, business.industry, Oxide, Nanotechnology, Condensed Matter Physics, Photochemistry, Electronic, Optical and Magnetic Materials, Catalysis, Biomaterials, Metal, chemistry.chemical_compound, chemistry, Thin-film transistor, Photovoltaics, Impurity, visual_art, Electrochemistry, visual_art.visual_art_medium, business, Sol-gel

Abstract

Despite intensive research on photochemical activation of sol–gel metal oxide materials, the relatively long processing time and lack of deep understanding of the underlying chemical courses have limited their broader impact on diverse materials and applications such as thin-film electronics, photovoltaics, and catalysts. Here, in-depth studies on the rapid photochemical activation of diverse sol–gel oxide films using various spectroscopic and electrical investigations for the underlying physicochemical mechanism are reported. Based on the exhaustive chemical and physical analysis, it is noted that deep ultraviolet-promoted rapid film formation such as densification, polycondensation, and impurity decomposition is possible within 5 min via in situ radical-mediated reactions. Finally, the rapid fabrication of all-solution metal oxide thin-film-transistor circuitry, which exhibits stable and reliable electrical performance with a mobility of >12 cm2 V−1 s−1 and an oscillation frequency of >650 kHz in 7-stage ring oscillator even after bending at a radius of

Published

2015

149. Direct patterning of sol–gel metal oxide semiconductor and dielectric films via selective surface wetting

Author

Sungjun Park, Seungbok Cha, Chang-Hyun Kim, Sujin Sung, Won-June Lee, and Myung-Han Yoon

Subjects

Fabrication, Materials science, business.industry, General Chemical Engineering, Inorganic chemistry, Oxide, General Chemistry, Dielectric, Selective surface, Metal, chemistry.chemical_compound, chemistry, visual_art, visual_art.visual_art_medium, Optoelectronics, Wetting, business, Sol-gel, Leakage (electronics)

Abstract

We report the simple, photolithography-free, direct patterning of both solution-processed metal oxide semiconductors and dielectrics via selective surface wetting. This technique was directly applied to fabrication of low-voltage all-solution metal oxide thin-film transistors with minimal channel and gate leakage currents.

Published

2015

150. Solvent-dependent structure of molecular iodine probed by picosecond X-ray solution scattering

Author

Hosung Ki, Joonghan Kim, Hyotcherl Ihee, Michael Wulff, Sungjun Park, Jae Hyuk Lee, Kyung Hwan Kim, Jeongho Kim, and Qingyu Kong

Subjects

Cyclohexane, Chemistry, Solvatochromism, General Physics and Astronomy, Antibonding molecular orbital, Diatomic molecule, Bond length, chemistry.chemical_compound, Reaction dynamics, Chemical physics, Computational chemistry, Molecule, Density functional theory, Physical and Theoretical Chemistry

Abstract

The effect of solute-solvent interaction on molecular structure and reaction dynamics has been a target of intense studies in solution-phase chemistry, but it is often challenging to characterize the subtle effect of solute-solvent interaction even for the simplest diatomic molecules. Since the I2 molecule has only one structural parameter and exhibits solvatochromism, it is a good model system for investigating the solvent dependence of the solute structure. By using X-rays as a probe, time-resolved X-ray liquidography (TRXL) can directly elucidate the structures of reacting molecules in solution and can thus determine the solvent-dependent structural change with atomic resolution. Here, by applying TRXL, we characterized the molecular structure of I2 in methanol and cyclohexane with sub-angstrom accuracy. Specifically, we found that the I-I bond length of I2 is longer in the polar solvent (methanol) by ∼0.2 Å than in nonpolar solvents (cyclohexane and CCl4). Density functional theory (DFT) using 22 explicit methanol molecules well reproduces the longer I-I bond of molecular iodine in methanol and reveals that the larger bond length originates from partial negative charge filled in an antibonding σ* orbital through solvent-to-solute charge transfer.

Published

2015