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1. Development of a novel multifocal lens using a polarization directed flat lens: possible candidate for a multifocal intraocular lens

Author

Kyung-Sun Na, Chang Su Lee, Da Ran Kim, Seok Ho Song, Soo Yeon Cho, Eun Chul Kim, Hyun Seung Kim, and Ho Sik Hwang

Subjects
Multifocal lens, Polarization-directed flat: intraocular lens, Ophthalmology, RE1-994
Abstract

Abstract Background A polarization-directed flat (PDF) lens acts as a converging lens with a focal length (f) > 0 and a diverging lens with f

Published
2021
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2. Antinociceptive effects of intrathecal cimifugin treatment: a preliminary rat study based on formalin test

Author

Hyun Young Lee, Young Joon Ki, Su Yeong Park, Soo Yeon Cho, Jinyoung Seo, Kyung Joon Lim, and Ki Tae Jung

Subjects
analgesia, apiaceae, chromones, cimifugin, pain measurement, nociception, Anesthesiology, RD78.3-87.3, Medicine
Abstract

Background Cimifugin is one of the components of the root of Saposhnikovia divaricata. The extract derived from S. divaricata is traditionally used as an analgesic. This study was conducted to evaluate the analgesic effect of intrathecal cimifugin in the formalin test. Methods Male Sprague–Dawley rats (n = 20) were randomized into four groups for intrathecal administration of 70% dimethylsulfoxide and various doses of cimifugin (100 μg, 300 μg, and 1,000 μg). The typical flinch response after the injection of 5% formalin into the hind paw was assessed in two distinct phases: phase 1 until 10 min, and phase 2 from 10 min to 60 min. ED50 values were calculated via linear regression. Results Intrathecal cimifugin significantly reduced the flinch response in both phases of the formalin test. Significant antinociceptive effects of cimifugin were found with the dose of 300 μg in phase 1 and the dose of 100 μg in phase 2. The ED50 value (95% confidence intervals) of intrathecal cimifugin was 696.1 (360.8–1,342.8) μg during phase 1 and 1,242.8 (42.0–48,292.5) μg during phase 2. Conclusions Intrathecal cimifugin has an antinociceptive effect against formalin-induced pain. Cimifugin has an anti-inflammatory effect at low concentrations, and non-inflammatory analgesic effect at higher concentrations.

Published
2020
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3. Conversion and Data Quality Assessment of Electronic Health Record Data at a Korean Tertiary Teaching Hospital to a Common Data Model for Distributed Network Research

Author

Dukyong Yoon, Eun Kyoung Ahn, Man Young Park, Soo Yeon Cho, Patrick Ryan, Martijn J. Schuemie, Dahye Shin, Hojun Park, and Rae Woong Park

Subjects
common data model, clinical coding, electronic health records, epidemiologic methods, observational health data sciences and informatics (ohdsi), Computer applications to medicine. Medical informatics, R858-859.7
Abstract

ObjectivesA distributed research network (DRN) has the advantages of improved statistical power, and it can reveal more significant relationships by increasing sample size. However, differences in data structure constitute a major barrier to integrating data among DRN partners. We describe our experience converting Electronic Health Records (EHR) to the Observational Health Data Sciences and Informatics (OHDSI) Common Data Model (CDM).MethodsWe transformed the EHR of a hospital into Observational Medical Outcomes Partnership (OMOP) CDM ver. 4.0 used in OHDSI. All EHR codes were mapped and converted into the standard vocabulary of the CDM. All data required by the CDM were extracted, transformed, and loaded (ETL) into the CDM structure. To validate and improve the quality of the transformed dataset, the open-source data characterization program ACHILLES was run on the converted data.ResultsPatient, drug, condition, procedure, and visit data from 2.07 million patients who visited the subject hospital from July 1994 to November 2014 were transformed into the CDM. The transformed dataset was named the AUSOM. ACHILLES revealed 36 errors and 13 warnings in the AUSOM. We reviewed and corrected 28 errors. The summarized results of the AUSOM processed with ACHILLES are available at http://ami.ajou.ac.kr:8080/.ConclusionsWe successfully converted our EHRs to a CDM and were able to participate as a data partner in an international DRN. Converting local records in this manner will provide various opportunities for researchers and data holders.

Published
2016
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10. Application of a Common Data Model (CDM) to rank the paediatric user and prescription prevalence of 15 different drug classes in South Korea, Hong Kong, Taiwan, Japan and Australia: an observational, descriptive study

Author

Ian Chi Kei Wong, Nicole L Pratt, Ruth Brauer, Kenneth KC Man, Rae Woong Park, Soo-Yeon Cho, Yu-Chuan (Jack) Li, Usman Iqbal, Phung-Anh Alex Nguyen, and Martijn Schuemie

Subjects
Medicine
Abstract

Objective To measure the paediatric user and prescription prevalence in inpatient and ambulatory settings in South Korea, Hong Kong, Taiwan, Japan and Australia by age and gender. A further objective was to list the most commonly used drugs per drug class, per country.Design and setting Hospital inpatient and insurance paediatric healthcare data from the following databases were used to conduct this descriptive drug utilisation study: (i) the South Korean Ajou University School of Medicine database; (ii) the Hong Kong Clinical Data Analysis and Reporting System; (iii) the Japan Medical Data Center; (iv) Taiwan’s National Health Insurance Research Database and (v) the Australian Pharmaceutical Benefits Scheme. Country-specific data were transformed into the Observational Medical Outcomes Partnership Common Data Model.Patients Children (≤18 years) with at least 1 day of observation in any of the respective databases from January 2009 until December 2013 were included.Main outcome measures For each drug class, we assessed the per-protocol overall user and prescription prevalence rates (per 1000 persons) per country and setting.Results Our study population comprised 1 574 524 children (52.9% male). The highest proportion of dispensings was recorded in the youngest age category (

Published
2020
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15. N–p-Conductor Transition of Gas Sensing Behaviors in Mo2CTx MXene

Author

Junghoon Choi, Benjamin Chacon, Hyunsoo Park, Kanit Hantanasirisakul, Taewoo Kim, Kateryna Shevchuk, Juyun Lee, Hohyung Kang, Soo-Yeon Cho, Jihan Kim, Yury Gogotsi, Seon Joon Kim, and Hee-Tae Jung

Subjects
Fluid Flow and Transfer Processes, Process Chemistry and Technology, Bioengineering, Instrumentation
Published
2022
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17. Geographical subdivision of Alviniconcha snail populations in the Indian Ocean hydrothermal vent regions

Author

Sook-Jin Jang, Soo-Yeon Cho, Chuyu Li, Yadong Zhou, Hui Wang, Jin Sun, Ajit Kumar Patra, and Yong-Jin Won

Subjects
Global and Planetary Change, Ocean Engineering, Aquatic Science, Oceanography, Water Science and Technology
Abstract

The hairy snails of the genus Alviniconcha are representative deep-sea hydrothermal vent animals distributed across the Western Pacific and Indian Ocean. Out of six known species in the genus Alviniconcha, only one nominal species of A. marisindica was found in the Indian Ocean from the Carlsberg Ridge (CR), Central Indian Ridge (CIR) to the northern part of Southwest Indian Ridge (SWIR) and Southeast Indian Ridge (SEIR). Recently, the Alviniconcha snails were found at three new vent fields, named Onnare, Onbada, and Onnuri, in the northern CIR, which promotes a more comprehensive phylogeographic study of this species. Here, we examined the phylogeography and connectivity of the Alviniconcha snails among seven vent fields representing the CR and CIR based on DNA sequence data of a mitochondrial COI gene and two protein-coding nuclear genes. Phylogenetic inferences revealed that the Alviniconcha snails of the newly found in the northern CIR and two vent fields of Wocan and Tianxiu in the CR were divergent with the previously identified A. marisindica in the southern CIR and mitochondrial COI data supported the divergence with at least greater than 3% sequence divergence. Population structure analyses based on the three genetic markers detected a phylogeographic boundary between Onnuri and Solitaire that divides the whole snail populations into northern and southern groups with a low migration rate. The high degree of genetic disconnection around the ‘Onnuri’ boundary suggests that the Alviniconcha snails in the Indian Ocean may undergo allopatric speciation. The border may similarly act as a dispersal barrier to many other vent species co-distributed in the CIR. This study would expand understanding the speciation and connectivity of vent species in the Indian Ocean.

Published
2023
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18. Comparison of Meibomian Gland Loss between Demodex-infested Group and Dry Eye Patients without Demodex Infestation

Author

Young Chae Yoon, Soo Yeon Cho, Sun Kyoung Park, Young Sik Yoo, Woong Joo Whang, Kyung Sun Na, Eun Chul Kim, Hyun Seung Kim, and Ho Sik Hwang

Subjects
Ophthalmology, integumentary system, parasitic diseases, sense organs
Abstract

Purpose: To compare the degree of meibomian gland drop-out associated with Demodex infestation using non-contact meibography.Methods: We performed noncontact meibography using an infrared digital camera on 24 adult subjects infested by Demodex and 40 without infestation. The right upper and lower lids were scored based on the loss of meibomian glands, and the scores of the upper and lower eyelids were summed to obtain the total meiboscore for each subject. Meiboscores were evaluated according to Demodex infestation and gender in each group.Results: Sixty-four eyes of 64 people were enrolled in this study. The study subjects had an average age of 67.9 years (range, 40-79 years; men, 65.2 years; women, 69.1 years). There was a significant association between Demodex infestation and total meiboscore and upper and lower eyelid meiboscores (p = 0.000, p = 0.002, p = 0.004, respectively). There was no significant difference in the meiboscores between men and women. Age and meiboscore suggested a weak positive correlation; however, the R2 value was low, due to the concentrated age distribution of the study population.Conclusions: Based on noncontact meibography, the authors concluded that the prevalence of changes in the meibomian glands was significantly related to Demodex infestation; however, there was no significant difference between men and women.

Published
2022
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21. Divalent Metal Cation Optical Sensing Using Single-Walled Carbon Nanotube Corona Phase Molecular Recognition

Author

Xun Gong, Soo-Yeon Cho, Sydney Kuo, Babatunde Ogunlade, Kathryn Tso, Daniel P. Salem, and Michael S. Strano

Subjects
Nanotubes, Carbon, Cations, Divalent, Cations, DNA, Mercury, Analytical Chemistry
Abstract

Colloidal single-walled carbon nanotubes (SWCNTs) offer a promising platform for the nanoscale engineering of molecular recognition. Optical sensors have been recently designed through the modification of noncovalent corona phases (CPs) of SWCNTs through a phenomenon known as corona phase molecular recognition (CoPhMoRe). In CoPhMoRe constructs, DNA CPs are of great interest due to the breadth of the design space and our ability to control these molecules with sequence specificity at scale. Utilizing these constructs for metal ion sensing is a natural extension of this technology due to DNA's well-known coordination chemistry. Additionally, understanding metal ion interactions of these constructs allows for improved sensor design for use in complex aqueous environments. In this work, we study the interactions between a panel of 9 dilute divalent metal cations and 35 DNA CPs under the most controlled experimental conditions for SWCNT optical sensing to date. We found that best practices for the study of colloidal SWCNT analyte responses involve mitigating the effects of ionic strength, dilution kinetics, laser power, and analyte response kinetics. We also discover that SWCNT with DNA CPs generally offers two unique sensing states at pH 6 and 8. The combined set of sensors in this work allowed for the differentiation of Hg

Published
2022

22. Nanosensor Chemical Cytometry for Characterizing the Efflux Heterogeneity of Nitric Oxide from Macrophages

Author

Xun Gong, Volodymyr B. Koman, Sun Jin Moon, Michael S. Strano, Soo-Yeon Cho, and Pavlo Gordiichuk

Subjects
Lipopolysaccharides, Lipopolysaccharide, biology, Macrophages, Cell, General Engineering, General Physics and Astronomy, Nitric Oxide, Nitric oxide, Nitric oxide synthase, chemistry.chemical_compound, medicine.anatomical_structure, chemistry, Antigen, medicine, Biophysics, biology.protein, Humans, Macrophage, General Materials Science, Efflux, Nitric Oxide Synthase, Cytometry
Abstract

Macrophages are a critical part of the human immune response, and their collective heterogeneity is implicated in disease progression and prevention. A nondestructive, label-free tool does not currently exist for profiling the dynamic, antigenic responses of single macrophages in a collection to correlate with specific molecular expression and correlated biophysical properties at the cellular level, despite the potential for diagnosis and therapeutics. Herein, we develop a nanosensor chemical cytometry (NCC) that can profile the heterogeneity of inducible nitric oxide synthase (iNOS) responses from macrophage populations. By integrating a near-infrared (nIR) fluorescent nanosensor array and collagen layer with microfluidics, the cellular lensing effect of the macrophage was utilized to characterize both nitric oxide (NO) efflux and refractive index (RI) changes at a single-cell level. Using a parallel, multichannel approach, distinct iNOS heterogeneities of macrophages can be monitored at an attomolar (10-18 mol) sensitivity in a nondestructive and real-time manner with a throughput of exceeding the 200 cells/frame. We demonstrate that estimated mean NO efflux rates of macrophage populations are elevated from 342 (σ = 199) to 464 (σ = 206) attomol/cell·hr with a 3% larger increase in the heterogeneity, and estimated RI of macrophage decrease from 1.366 (σ = 0.015) to 1.359 (σ = 0.009) with trimodal subpopulations under lipopolysaccharide (LPS) activation. These measured values are also in good agreement with Griess assay results and previously reported measurements. This work provides an efficient strategy for single-cell analysis of macrophage populations for cellular manufacturing and biopharmaceutical engineering.

Published
2021
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23. Cellular lensing and near infrared fluorescent nanosensor arrays to enable chemical efflux cytometry

Author

Hadley D. Sikes, Pavlo Gordiichuk, Manki Son, Michael S. Strano, Xiaojia Jin, Volodymyr B. Koman, Matthias Kuehne, Xun Gong, Soo-Yeon Cho, Sun Jin Moon, and Tedrick Thomas Salim Lew

Subjects
0301 basic medicine, Materials science, Science, Microfluidics, Carbon nanotubes and fullerenes, General Physics and Astronomy, Nanotechnology, Biosensing Techniques, 02 engineering and technology, Spectrum Analysis, Raman, Article, Fluorescence imaging, General Biochemistry, Genetics and Molecular Biology, Cell Line, Physics::Fluid Dynamics, 03 medical and health sciences, Molecular level, Nanosensor, Microfluidic channel, Human Umbilical Vein Endothelial Cells, Humans, Fluorescent Dyes, B-Lymphocytes, Multidisciplinary, Nanotubes, Carbon, Near-infrared spectroscopy, technology, industry, and agriculture, Biological Transport, Hydrogen Peroxide, U937 Cells, General Chemistry, 021001 nanoscience & nanotechnology, Fluorescence, HEK293 Cells, Biosensors, 030104 developmental biology, Cellular heterogeneity, 0210 nano-technology, Cytometry, Algorithms
Abstract

Nanosensors have proven to be powerful tools to monitor single cells, achieving spatiotemporal precision even at molecular level. However, there has not been way of extending this approach to statistically relevant numbers of living cells. Herein, we design and fabricate nanosensor array in microfluidics that addresses this limitation, creating a Nanosensor Chemical Cytometry (NCC). nIR fluorescent carbon nanotube array is integrated along microfluidic channel through which flowing cells is guided. We can utilize the flowing cell itself as highly informative Gaussian lenses projecting nIR profiles and extract rich information. This unique biophotonic waveguide allows for quantified cross-correlation of biomolecular information with various physical properties and creates label-free chemical cytometer for cellular heterogeneity measurement. As an example, the NCC can profile the immune heterogeneities of human monocyte populations at attomolar sensitivity in completely non-destructive and real-time manner with rate of ~600 cells/hr, highest range demonstrated to date for state-of-the-art chemical cytometry., The authors present nanosensor chemical cytometry, based on an array of nIR fluorescent single walled carbon nanotube integrated along a microfluidic channel. The lensing effect of the flowing cells allows for extracting information, and correlating biomolecular information with physical properties.

Published
2021

24. Effects of household water-repellent agents and number of coating layers on the physical properties of cotton woven fabrics

Author

Seyeon Kim, Jo-Eun Kim, Da-Eun Song, Soo-Yeon Cho, Yeseul Hwang, and Youngjoo Chae

Subjects
Multidisciplinary
Abstract

The increased interest in outdoor activities has prompted the demand for water-repellent fabrics that can withstand various environmental factors. In this study, the water repellency and physical properties, namely thickness, weight, tensile strength, elongation, and stiffness, of cotton woven fabrics were analyzed according to various treatments with different types of household water-repellent agents and number of coating layers. Fluorine-, silicone-, and wax-based water-repellent agents were coated on cotton woven fabrics once, thrice, and five times. Thickness, weight, and stiffness increased with the number of coating layers, which may reduce comfort. These properties increased minimally for the fluorine- and silicone-based water-repellent agents, whereas they considerably increased for the wax-based water-repellent agent. The fluorine-based water-repellent agent had a low water repellency rating of 2.2 even after five coating layers, and the silicone-based water-repellent agent had a higher rating of 3.4 with the same five coating layers. Meanwhile, the wax-based water-repellent agent had the highest water repellency rating of 5 even with only one coating layer, which was maintained with repeated coatings. Therefore, fluorine- and silicone-based water-repellent agents minimally altered the fabric properties even with repeated coatings; multiple coating layers, especially five or more layers for the fluorine-based water-repellent agent, are recommended to attain excellent water repellency. Conversely, one coating layer of the wax-based water-repellent agent is recommended to retain the comfort of the wearer.

Published
2023
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27. Antinociceptive effects of intrathecal cimifugin treatment: a preliminary rat study based on formalin test

Author

Soo Yeon Cho, Kyung Joon Lim, Su Yeong Park, Jinyoung Seo, Ki Tae Jung, Young Joon Ki, and Hyun Young Lee

Subjects
Nociception, Analgesic effect, Spinal Pain, Pain measurement, Formalin Test, Experimental Research, business.industry, Saposhnikovia divaricata, Analgesic, General Medicine, Pharmacology, Intrathecal, 03 medical and health sciences, Cimifugin, 0302 clinical medicine, Chromones, 030202 anesthesiology, Medicine, Analgesia, business, 030217 neurology & neurosurgery, Volume concentration, ED50, Apiaceae
Abstract

Background: Cimifugin is one of the components of the root of Saposhnikovia divaricata. The extract derived from S. divaricata is traditionally used as an analgesic. This study was conducted to evaluate the analgesic effect of intrathecal cimifugin in the formalin test.Methods: Male Sprague–Dawley rats (n = 20) were randomized into four groups for intrathecal administration of 70% dimethylsulfoxide and various doses of cimifugin (100 μg, 300 μg, and 1,000 μg). The typical flinch response after the injection of 5% formalin into the hind paw was assessed in two distinct phases: phase 1 until 10 min, and phase 2 from 10 min to 60 min. ED50 values were calculated via linear regression.Results: Intrathecal cimifugin significantly reduced the flinch response in both phases of the formalin test. Significant antinociceptive effects of cimifugin were found with the dose of 300 μg in phase 1 and the dose of 100 μg in phase 2. The ED50 value (95% confidence intervals) of intrathecal cimifugin was 696.1 (360.8–1,342.8) μg during phase 1 and 1,242.8 (42.0–48,292.5) μg during phase 2.Conclusions: Intrathecal cimifugin has an antinociceptive effect against formalin-induced pain. Cimifugin has an anti-inflammatory effect at low concentrations, and non-inflammatory analgesic effect at higher concentrations.

Published
2020
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28. Finding Hidden Signals in Chemical Sensors Using Deep Learning

Author

Hannes Jung, Jihan Kim, Jae-hoon Kim, Sangwon Lee, Jin Ryu, Youhan Lee, Jung-Hoon Choi, Heeeun Joo, Hohyung Kang, and Soo-Yeon Cho

Subjects
Detection limit, Analyte, Artificial neural network, Chemistry, business.industry, Sensing applications, Deep learning, 010401 analytical chemistry, High resolution, Pattern recognition, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Noise (video), Artificial intelligence, business
Abstract

Achieving high signal-to-noise ratio in chemical and biological sensors enables accurate detection of target analytes. Unfortunately, below the limit of detection (LOD), it becomes difficult to detect the presence of small amounts of analytes and extract useful information via any of the conventional methods. In this work, we examine the possibility of extracting "hidden signals" using deep neural network to enhance gas sensing below the LOD region. As a test case system, we conduct experiments for H2 sensing in six different metallic channels (Au, Cu, Mo, Ni, Pt, Pd) and demonstrate that deep neural network can enhance the sensing capabilities for H2 concentration below the LOD. We demonstrate that this technique could be universally used for different types of sensors and target analytes. Our approach can extract new information from the hidden signals, which can be crucial for next-generation chemical sensing applications and analytical chemistry.

Published
2020
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29. Non-mitochondrial aconitase regulates the expression of iron-uptake genes by controlling the RNA turnover process in fission yeast

Author

Soo-Yeon Cho, Kyoung-Dong Kim, Soo-Jin Jung, and Jung-Hye Roe

Subjects
Cytoplasm, Iron, RNA Stability, Genes, Fungal, Mitochondrion, Applied Microbiology and Biotechnology, Microbiology, Aconitase, GATA Transcription Factors, Regulon, Ribonucleases, Exoribonuclease, Gene Expression Regulation, Fungal, Schizosaccharomyces, RNA, Messenger, Gene, Cation Transport Proteins, Aconitate Hydratase, Cell Nucleus, Messenger RNA, Chemistry, RNA, Iron-Regulatory Proteins, Membrane Proteins, Nuclear Proteins, ACO2, RNA, Fungal, General Medicine, Cell biology, Exoribonucleases, Schizosaccharomyces pombe Proteins, Nuclear localization sequence
Abstract

Aconitase, a highly conserved protein across all domains of life, functions in converting citrate to isocitrate in the tricarboxylic acid cycle. Cytosolic aconitase is also known to act as an iron regulatory protein in mammals, binding to the RNA hairpin structures known as iron-responsive elements within the untranslated regions of specific RNAs. Aconitase-2 (Aco2) in fission yeast is a fusion protein consisting of an aconitase and a mitochondrial ribosomal protein, bL21, residing not only in mitochondria but also in cytosol and the nucleus. To investigate the role of Aco2 in the nucleus and cytoplasm of fission yeast, we analyzed the transcriptome of aco2ΔN mutant that is deleted of nuclear localization signal (NLS). RNA sequencing revealed that the aco2ΔN mutation caused increase in mRNAs encoding iron uptake transporters, such as Str1, Str3, and Shu1. The half-lives of mRNAs for these genes were found to be significantly longer in the aco2ΔN mutant than the wild-type strain, suggesting the role of Aco2 in mRNA turnover. The three conserved cysteines required for the catalytic activity of aconitase were not necessary for this role. The UV cross-linking RNA immunoprecipitation analysis revealed that Aco2 directly bound to the mRNAs of iron uptake transporters. Aco2-mediated degradation of iron-uptake mRNAs appears to utilize exoribonuclease pathway that involves Rrp6 as evidenced by genetic interactions. These results reveal a novel role of non-mitochondrial aconitase protein in the mRNA turnover in fission yeast to fine-tune iron homeostasis, independent of regulation by transcriptional repressor Fep1.

Published
2021

31. Intact Crystalline Semiconducting Graphene Nanoribbons from Unzipping Nitrogen-Doped Carbon Nanotubes

Author

Joonwon Lim, Soo-Yeon Cho, Hannes Jung, Hongjun Kim, Dong Sung Choi, Seungbum Hong, Taeyeong Yun, Gil-Yong Lee, Chanwoo Lee, Ho Jin Lee, Suchithra Padmajan Sasikala, Sang Ouk Kim, and Mun Seok Jeong

Subjects
Nanostructure, Materials science, Graphene, Band gap, Doping, Nucleation, Oxide, Nanotechnology, 02 engineering and technology, Carbon nanotube, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, law.invention, chemistry.chemical_compound, chemistry, law, General Materials Science, 0210 nano-technology, Graphene nanoribbons
Abstract

Unzipping carbon nanotubes (CNTs) may offer a valuable route to synthesize graphene nanoribbon (GNR) structures with semiconducting properties. Unfortunately, currently available unzipping methods commonly rely on a random harsh chemical reaction and thereby cause significant degradation of the crystalline structure and electrical properties of GNRs. Herein, crystalline semiconducting GNRs are achieved by a synergistic, judiciously designed two-step unzipping method for N-doped CNTs (NCNTs). NCNTs are effectively unzipped by damage-minimized, dopant-specific electrochemical unzipping and subsequent sonochemical treatment into long ribbon-like nanostructures with crystalline basal planes. Owing to the nanoscale dimension originating from the dense nucleation of the unzipping reaction at highly NCNTs, the resultant GNRs demonstrate semiconducting properties, which can be exploited for chemiresistor-type gas-sensing devices and many other applications.

Published
2019
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32. Enhanced Selectivity of MXene Gas Sensors through Metal Ion Intercalation: In Situ X-ray Diffraction Study

Author

Yong-Jae Kim, Kathleen Maleski, Soo-Yeon Cho, Yury Gogotsi, Chi Won Ahn, Hyeong-Jun Koh, Seon Joon Kim, and Hannes Jung

Subjects
Models, Molecular, In situ, Materials science, Intercalation (chemistry), Molecular Conformation, Bioengineering, 02 engineering and technology, Photochemistry, 01 natural sciences, Chemistry Techniques, Analytical, Metal, Condensed Matter::Materials Science, Adsorption, X-Ray Diffraction, Transition Elements, Physics::Atomic and Molecular Clusters, Molecule, Physics::Chemical Physics, Instrumentation, Enhanced selectivity, Fluid Flow and Transfer Processes, Process Chemistry and Technology, 010401 analytical chemistry, Charge (physics), 021001 nanoscience & nanotechnology, 0104 chemical sciences, Condensed Matter::Soft Condensed Matter, visual_art, X-ray crystallography, visual_art.visual_art_medium, Gases, 0210 nano-technology
Abstract

Gas molecules are known to interact with two-dimensional (2D) materials through surface adsorption where the adsorption-induced charge transfer governs the chemiresistive sensing of various gases. Recently, titanium carbide (Ti

Published
2019
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33. Ten Nanometer Scale WO3/CuO Heterojunction Nanochannel for an Ultrasensitive Chemical Sensor

Author

Doohyung Jang, Soo-Yeon Cho, Jung-Hoon Choi, Hannes Jung, Hyeong-Jun Koh, and Hohyung Kang

Subjects
Fabrication, Nanostructure, Dopant, business.industry, Chemistry, 010401 analytical chemistry, Nanoparticle, Heterojunction, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Depletion region, Optoelectronics, Nanometre, business, Lithography
Abstract

The fabrication of p-n heterostructures of a metal oxide semiconductor (MOS) showed that a large amount of heterojunction interfaces is one of the key issues in MOS gas sensor research, since it could significantly enhance the sensing performance. Despite considerable progress in this area, fabrication of an ideal p-n heterojunction sensing channel has been challenging because of morphological limitations of synthetic methods in the conventional bottom-up fabrication based on precursor reductions. In this study, a 10 nm scale p-n heterojunction nanochannel was fabricated with ultrasmall grained WO3/CuO nanopatterns in a large area (centimeter scale) through unique one-step top-down lithographic approaches. The fabricated p-n heterostructure nanochannel showed ultrathinness (20 nm thickness) and high aspect ratio (>10) and consisted of highly dispersed p-type dopants and n-type channel materials. This facile heterojunction nanostructure could induce a high degree of extended depletion layer and efficient catalytic properties within its single-nanochannel surfaces. Accordingly, the WO3/CuO nanochannel exhibited ultrasensitive detection performance toward ethanol (C2H5OH) ( Ra/ Rg = 224 at100 ppb), 12 times higher than that of a pristine WO3 nanochannel. The limit of detection of the sensors was calculated to be below parts per billion levels (0.094 ppb) with significant response amplitudes ( Ra/ Rg = 75), which is the best ethanol-sensing performance among previously reported MOS-based sensors. Our unique lithographic approach for the p-n heterojunction nanochannel is expected to be universally applicable to various heteronanostructures such as the n-n junction, p-p junction, and metal-semiconductor junction without combinatorial limitations.

Published
2019
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34. An investigation into the factors governing the oxidation of two-dimensional Ti3C2MXene

Author

Jung-Hoon Choi, Chi Won Ahn, Hannes Jung, Yong-Hee Lee, Yoonjeong Chae, Soo-Yeon Cho, Kathleen Maleski, Seon Joon Kim, Byeong-Joo Lee, and Yury Gogotsi

Subjects
Molecular diffusion, Aqueous solution, Titanium carbide, Materials science, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Energy storage, 0104 chemical sciences, Colloid, chemistry.chemical_compound, chemistry, Chemical engineering, Titanium dioxide, Molecule, General Materials Science, 0210 nano-technology, MXenes
Abstract

Two-dimensional (2D) transition metal carbides (MXenes) exhibit outstanding performances in many applications, such as energy storage, optoelectronics, and electrocatalysts. However, colloidal solutions of Ti3C2Tx MXene flakes deteriorate rapidly under ambient conditions due to the conversion of the titanium carbide to titanium dioxide. Here, we discuss the dominant factors influencing the rate of oxidation of Ti3C2Tx MXene flakes, and present guidelines for their storage with the aim of maintaining the intrinsic properties of the as-prepared material. The oxidation stability of the Ti3C2Tx flakes is dramatically improved in a system where water molecules and temperature were well-controlled. It was found that aqueous solutions of Ti3C2Tx MXene can be chemically stable for more than 39 weeks when the storage temperature (−80 °C) is sufficiently low to cease the oxidation processes. It was also found that if the Ti3C2Tx flakes are dispersed in ethanol, the degradation process can be significantly delayed even at 5 °C. Moreover, the oxidation stability of the Ti3C2Tx flakes is dramatically improved in both cases, even in the presence of oxygen-containing atmosphere. We demonstrate practical applications of our approach by employing Ti3C2Tx in a gas sensor showing that when oxidation is inhibited, the device can retain the original electrical properties after 5 weeks of storage.

Published
2019
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35. (Invited) Using Cell Lensing and Nanosensor Chemical Cytometry to Characterize Immune Cell Populations

Author

Xun Gong, Soo-Yeon Cho, Volodymyr Koman, Xiaojia Jin, and Michael Strano

Abstract

Recently, we developed a method called Nanosensor Chemical Cytometry (NCC), where an optical nanosensor array embedded within microfluidics can be used to interrogate chemical species efflux from individual cells. The cell itself was found to perform as an informative Gaussian lens, projecting both the nIR emission of the single-walled carbon nanotube sensors as well as various cellular physical properties. We found NCC to be able to profile immune heterogeneities at attomolar sensitivity in a completely non-destructive and real-time manner with rate of ~600 cells/hr. Macrophages are a critical part of the human immune response, and their collective heterogeneity is implicated in disease progression and prevention. Here, we use the NCC technique to profile the heterogeneity of inducible nitric oxide synthase (iNOS) responses from macrophage populations. Parameters measured nitric oxide (NO) efflux and refractive index (RI) changes at a single-cell level. Using NCC, NO was measured with (10−18 mol) sensitivity in a nondestructive and real-time manner with a throughput of exceeding the 200 cells/frame. With lipopolysaccharide (LPS) activation, NO efflux elevated from 342 (σ = 199) to 464 (σ = 206) attomol/cell·hr, in agreement with previously reported Griess assay results. This work provides an efficient strategy for chemical analysis of cell populations for manufacturing and biopharmaceutical engineering.

Published
2022
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36. Development of a novel multifocal lens using a polarization directed flat lens: Possible candidate for a multifocal intraocular lens

Author

Ho Sik Hwang, Soo Yeon Cho, Da Ran Kim, Eun Chul Kim, Kyung-Sun Na, Hyun-Seung Kim, and Chang Su Lee

Subjects
Physics, Optics, genetic structures, business.industry, Flat lens, Lens (geology), Multifocal intraocular lens, Polarization (waves), business
Abstract

Background: A polarization-directed flat (PDF) lens acts as a converging lens with a focal length (f) > 0 and a diverging lens with f < 0, depending on the polarization state of the incidental light. To produce a multifocal lens with two focal lengths, a PDF and a converging lens having shorter focal length were combined. In this study, we tested to determine its potential as a new multifocal intraocular lens (IOL).Methods: Constructed a multifocal lens with a PDF lens (f=+/- 100 mm) and a converging lens (f= +50 mm). In an optical bench test, we measured the lens’s focal lengths to test the multifocal function. The multifocal function and optical quality of the lens in various situations were tested. An Early Treatment Diabetic Retinopathy Study (ETDRS) chart as a near target and a parking lot as a distant target were photographed using a digital single-lens reflex (DSLR) camera. Both lenses (multifocal and monofocal) were tested under same conditions. Results: In the optical bench test, the multifocal lens’s focal lengths were 31.2 and 71.2 mm. In the DSLR test using the multifocal lens, the parking lot appeared slightly cloudy compared to the monofocal lens results. With the multifocal lens, the ETDRS chart’s images became blurry as the ETDRS chart’s distance decreased, but became very clear again at a certain position.Conclusions: We confirmed the multifocal function of the multifocal lens using a PDF lens. This lens can be used as a multifocal IOL in the future.

Published
2021
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37. Scalable Superior Chemical Sensing Performance of Stretchable Ionotronic Skin via a π-Hole Receptor Effect

Author

Min Gao, Hannes Jung, Do Hwan Kim, Ming Liang Jin, Xinlin Li, Hyukmin Kweon, Sangsik Park, Hyeong-Jun Koh, Soo-Yeon Cho, Chi Won Ahn, Yunpyo Kim, Shuye Zhang, Kwanwoo Shin, C.C Tang, and Aiping Fu

Subjects
chemistry.chemical_classification, Fabrication, Materials science, business.industry, Mechanical Engineering, Electrolyte, Carbon nanotube, Polymer, law.invention, Thermoplastic polyurethane, Wearable Electronic Devices, chemistry, Mechanics of Materials, law, Electrode, Optoelectronics, Humans, General Materials Science, Relative humidity, Gases, business, Selectivity, Mechanical Phenomena, Skin
Abstract

Skin-attachable gas sensors provide a next-generation wearable platform for real-time protection of human health by monitoring environmental and physiological chemicals. However, the creation of skin-like wearable gas sensors, possessing high sensitivity, selectivity, stability, and scalability (4S) simultaneously, has been a big challenge. Here, an ionotronic gas-sensing sticker (IGS) is demonstrated, implemented with free-standing polymer electrolyte (ionic thermoplastic polyurethane, i-TPU) as a sensing channel and inkjet-printed stretchable carbon nanotube electrodes, which enables the IGS to exhibit high sensitivity, selectivity, stability (against mechanical stress, humidity, and temperature), and scalable fabrication, simultaneously. The IGS demonstrates reliable sensing capability against nitrogen dioxide molecules under not only harsh mechanical stress (cyclic bending with the radius of curvature of 1 mm and cyclic straining at 50%), but also environmental conditions (thermal aging from -45 to 125 °C for 1000 cycles and humidity aging for 24 h at 85% relative humidity). Further, through systematic experiments and theoretical calculations, a π-hole receptor mechanism is proposed, which can effectively elucidate the origin of the high sensitivity (up to parts per billion level) and selectivity of the ionotronic sensing system. Consequently, this work provides a guideline for the design of ionotronic materials for the achievement of high-performance and skin-attachable gas-sensor platforms.

Published
2020

38. Antioxidant and Anti-Inflammatory Activities in Relation to the Flavonoids Composition of Pepper (Capsicum annuum L.)

Author

Heon-Woong Kim, Hwan-Hee Jang, Young Min Lee, Jeong-Sook Choe, Jung-Bong Kim, Soo-Yeon Cho, Hyeon-Jung Kim, and Min-Ki Lee

Subjects
0301 basic medicine, Antioxidant, Physiology, medicine.drug_class, medicine.medical_treatment, Clinical Biochemistry, Flavonoid, medicine.disease_cause, 01 natural sciences, Biochemistry, Anti-inflammatory, 03 medical and health sciences, chemistry.chemical_compound, Pepper, medicine, heterocyclic compounds, Food science, luteolin, Molecular Biology, chemistry.chemical_classification, reactive oxygen species, Reactive oxygen species, 030109 nutrition & dietetics, Chemistry, 010401 analytical chemistry, lcsh:RM1-950, fungi, food and beverages, Cell Biology, 0104 chemical sciences, carbohydrates (lipids), lcsh:Therapeutics. Pharmacology, Apigenin, pepper leaf, Luteolin, pepper fruit, Oxidative stress
Abstract

The chili pepper (Capsicum annuum L.) is a food source that is rich in flavonoids such as luteolin and apigenin. Flavonoids are known to have anti-inflammatory and antioxidant activities, however, studies on the flavonoids composition identified and the anti-inflammatory and antioxidant effects in pepper leaves (PL) and fruits (PF) are insufficient. In the present study, we investigated the antioxidant and anti-inflammatory effects in vitro, and the flavonoids contents of the PL and PF. Pepper extracts showed radical scavenging activities and ameliorated the lipopolysaccharide (LPS)-stimulated inflammatory response by decreasing nitric oxide production and interluekin-6 and tumor necrosis factor alpha levels in RAW 264.7 cells, with more effective activities noted for PL than for PF. Furthermore, PL extracts markedly inhibited the LPS-induced production of reactive oxygen species accumulation. The flavonoid profile and content of pepper were dependent on the part, with PL showing higher total flavonoids than PF. In particular, the content of luteolin glycosides in PL was twice that in PF. Thus, PL may be useful to prevent oxidative stress and inflammation-related diseases.

Published
2020
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39. Antioxidant and Anti-Inflammatory Activities in Relation to the Flavonoids Composition of Pepper (

Author

Soo-Yeon, Cho, Heon-Woong, Kim, Min-Ki, Lee, Hyeon-Jung, Kim, Jung-Bong, Kim, Jeong-Sook, Choe, Young-Min, Lee, and Hwan-Hee, Jang

Subjects
reactive oxygen species, fungi, pepper leaf, food and beverages, luteolin, pepper fruit, Article
Abstract

The chili pepper (Capsicum annuum L.) is a food source that is rich in flavonoids such as luteolin and apigenin. Flavonoids are known to have anti-inflammatory and antioxidant activities; however, studies on the flavonoids composition identified and the anti-inflammatory and antioxidant effects in pepper leaves (PL) and fruits (PF) are insufficient. In the present study, we investigated the antioxidant and anti-inflammatory effects in vitro, and the flavonoids contents of the PL and PF. Pepper extracts showed radical scavenging activities and ameliorated the lipopolysaccharide (LPS)-stimulated inflammatory response by decreasing nitric oxide production and interluekin-6 and tumor necrosis factor alpha levels in RAW 264.7 cells, with more effective activities noted for PL than for PF. Furthermore, PL extracts markedly inhibited the LPS-induced production of reactive oxygen species accumulation. The flavonoid profile and content of pepper were dependent on the part, with PL showing higher total flavonoids than PF. In particular, the content of luteolin glycosides in PL was twice that in PF. Thus, PL may be useful to prevent oxidative stress and inflammation-related diseases.

Published
2020

40. A Fiber Optic Interface Coupled to Nanosensors: Applications to Protein Aggregation and Organic Molecule Quantification

Author

Alicia Zeng, Xiaojia Jin, Leonela Vega, Heejin Lee, Xun Gong, Michael S. Strano, Daichi Kozawa, Jeff Schacherl, Scott R. Gibson, Freddy T. Nguyen, Soo-Yeon Cho, Michael A. Lee, and Gang Xue

Subjects
Optical fiber, Materials science, Cost effectiveness, Transducers, General Physics and Astronomy, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Multiplexing, law.invention, Protein Aggregates, law, Nanosensor, Fiber Optic Technology, Humans, General Materials Science, Fiber, Lasers, General Engineering, Response time, Proteins, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Optode, 0210 nano-technology, Critical quality attributes
Abstract

Fluorescent nanosensors hold promise to address analytical challenges in the biopharmaceutical industry. The monitoring of therapeutic protein critical quality attributes such as aggregation is a long-standing challenge requiring low detection limits and multiplexing of different product parameters. However, general approaches for interfacing nanosensors to the biopharmaceutical process remain minimally explored to date. Herein, we design and fabricate a integrated fiber optic nanosensor element, measuring sensitivity, response time, and stability for applications to the rapid process monitoring. The fiber optic-nanosensor interface, or optode, consists of label-free nIR fluorescent single-walled carbon nanotube transducers embedded within a protective yet porous hydrogel attached to the end of the fiber waveguide. The optode platform is shown to be capable of differentiating the aggregation status of human immunoglobulin G, reporting the relative fraction of monomers and dimer aggregates with sizes 5.6 and 9.6 nm, respectively, in under 5 min of analysis time. We introduce a lab-on-fiber design with potential for at-line monitoring with integration of 3D-printed miniaturized sensor tips having high mechanical flexibility. A parallel measurement of fluctuations in laser excitation allows for intensity normalization and significantly lower noise level (3.7 times improved) when using lower quality lasers, improving the cost effectiveness of the platform. As an application, we demonstrate the capability of the fully integrated lab-on-fiber system to rapidly monitor various bioanalytes including serotonin, norepinephrine, adrenaline, and hydrogen peroxide, in addition to proteins and their aggregation states. These results in total constitute an effective form factor for nanosensor-based transducers for applications in industrial process monitoring.

Published
2020

41. Application of a Common Data Model (CDM) to rank the paediatric user and prescription prevalence of 15 different drug classes in South Korea, Hong Kong, Taiwan, Japan and Australia: an observational, descriptive study

Author

Martijn J. Schuemie, Ian C. K. Wong, Rae Woong Park, Usman Iqbal, Phung Anh Nguyen, Soo Yeon Cho, Yu-Chuan Jack Li, Kenneth K.C. Man, Ruth Brauer, Nicole L. Pratt, Brauer, Ruth, Wong, Ian Chi Kei, Man, Kenneth KC, Pratt, Nicole L, Park, Rae Woong, Cho, Soo-Yeon, Li, Yu-Chuan (Jack), Iqbal, Usman, Nguyen, Phung-Anh Alex, and Schuemie, Martijn

Subjects
Male, medicine.medical_specialty, Adolescent, Taiwan, Prevalence, Pharmaceutical Benefits Scheme, paediatrics, Japan, Republic of Korea, Epidemiology, medicine, Humans, East Asia, Medical prescription, Child, business.industry, Age Factors, Australia, Paediatrics, General Medicine, Drug Utilization, Checklist, Prescriptions, Pharmaceutical Preparations, Socioeconomic Factors, Child, Preschool, Family medicine, Hong Kong, Population study, Female, Observational study, epidemiology, clinical pharmacology, business
Abstract

ObjectiveTo measure the paediatric user and prescription prevalence in inpatient and ambulatory settings in South Korea, Hong Kong, Taiwan, Japan and Australia by age and gender. A further objective was to list the most commonly used drugs per drug class, per country.Design and settingHospital inpatient and insurance paediatric healthcare data from the following databases were used to conduct this descriptive drug utilisation study: (i) the South Korean Ajou University School of Medicine database; (ii) the Hong Kong Clinical Data Analysis and Reporting System; (iii) the Japan Medical Data Center; (iv) Taiwan’s National Health Insurance Research Database and (v) the Australian Pharmaceutical Benefits Scheme. Country-specific data were transformed into the Observational Medical Outcomes Partnership Common Data Model.PatientsChildren (≤18 years) with at least 1 day of observation in any of the respective databases from January 2009 until December 2013 were included.Main outcome measuresFor each drug class, we assessed the per-protocol overall user and prescription prevalence rates (per 1000 persons) per country and setting.ResultsOur study population comprised 1 574 524 children (52.9% male). The highest proportion of dispensings was recorded in the youngest age category (ConclusionsCountry-specific paediatric drug utilisation patterns were described, ranked and compared between four East Asian countries and Australia. The widespread use of mucolytics in East Asia warrants further investigation.

Published
2020

42. DIFFERENCE IN TREATMENT OUTCOMES ACCORDING TO OPTICAL COHERENCE TOMOGRAPHY–BASED STAGES IN TYPE 3 NEOVASCULARIZATION (RETINAL ANGIOMATOUS PROLIFERATION)

Author

Soo Yeon Cho, Young Suk Chang, Dong Won Lee, Jong Woo Kim, Jae Hui Kim, and Chul Gu Kim

Subjects
Male, Vascular Endothelial Growth Factor A, 0301 basic medicine, Fovea Centralis, medicine.medical_specialty, Visual acuity, Fundus Oculi, Recombinant Fusion Proteins, Visual Acuity, Angiogenesis Inhibitors, Retinal Pigment Epithelium, Retinal Neovascularization, Slit Lamp Microscopy, Severity of Illness Index, Neovascularization, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Ranibizumab, Ophthalmology, Severity of illness, medicine, Humans, Fluorescein Angiography, Stage (cooking), Aged, Retrospective Studies, medicine.diagnostic_test, business.industry, Retinal Vessels, Retrospective cohort study, Retinal, General Medicine, Fluorescein angiography, Receptors, Vascular Endothelial Growth Factor, 030104 developmental biology, chemistry, Intravitreal Injections, Disease Progression, 030221 ophthalmology & optometry, Tears, Female, medicine.symptom, business, Tomography, Optical Coherence, Follow-Up Studies
Abstract

Purpose To compare 12-month treatment outcomes of Type 3 neovascularization among its different stages as classified using an optical coherence tomography-based method. Methods This retrospective observational study included 40 patients (40 eyes) who were newly diagnosed with Type 3 neovascularization. The patients were initially administered 3 monthly anti-vascular endothelial growth factor injections. Repeat treatment was performed when recurrence of fluid was noted. Disease staging was classified using the optical coherence tomography-based method. The best-corrected visual acuity at diagnosis and at 12 months and degree of change in best-corrected visual acuity were compared among the different stages of the disease. In addition, incidence of progression in the disease stages was estimated. Results Among the 40 patients, 14 (35.0%) were classified as Stage 2 and 26 (65.0%) were classified as Stage 3. The best-corrected visual acuity values at diagnosis and at 12 months were 0.61 ± 0.31 (20/81 Snellen equivalents) and 0.46 ± 0.30 (20/57) in the Stage 2 group and 0.67 ± 0.42 (20/93) and 0.70 ± 0.49 (20/100) in the Stage 3 group, respectively. There was a significant difference in best-corrected visual acuity change between the two groups (P = 0.036). During the follow-up period, 3 retinal pigment epithelium tears and 2 submacular hemorrhages had developed in the Stage 3 group. Progression of the disease from Stage 2 to Stage 3 was noted in 2 patients (14.3%). Conclusion The visual outcome was worse in Stage 3 than in Stage 2, and adverse events that may lead to abrupt visual deterioration developed only in Stage 3. Further studies are needed to reveal whether anti-vascular endothelial growth factor therapy can suppress the progression of the disease stages.

Published
2018
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43. Ultrasmall Grained Pd Nanopattern H2 Sensor

Author

Hohyung Kang, Hyunah Ahn, Hannes Jung, Kangho Park, Jung-Hoon Choi, and Soo-Yeon Cho

Subjects
Fluid Flow and Transfer Processes, Work (thermodynamics), Range (particle radiation), Materials science, Hydrogen, business.industry, Process Chemistry and Technology, chemistry.chemical_element, Bioengineering, 02 engineering and technology, Plasma, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Grain size, 0104 chemical sciences, Controllability, chemistry, Phase (matter), Optoelectronics, 0210 nano-technology, business, Instrumentation, Lithography
Abstract

Precise control of the size and interfaces of Pd grains is very important for designing a high-performance H2 sensing channel because the transition of the Pd phase from α to β occurs through units of single grains. However, unfortunately, the grain controllability of previous approaches has been limited to grains exceeding 10 nm in size and simple macroscopic channel structures have only shown monotonic response behavior for a wide concentration range of H2. In this work, for the first time, we found that Pd channels that are precisely grain-controlled show very different H2 sensing behavior. They display dual-switching response behavior with simultaneous variation of the positive and negative response direction within single sensor. The Pd nanopattern channel having smallest grain size/interface among previous works could be fabricated via unique lithographic approaches involving low-energy plasma (Ar+) bombardment. The ultrasmall grain size (5 nm) and narrow interface gap (

Published
2018
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44. Rational Design of Aminopolymer for Selective Discrimination of Acidic Air Pollutants

Author

Kyeong Min Cho, Kangho Park, Geunjae Kwak, Soo-Yeon Cho, Hohyung Kang, Sungtak Kim, Hannes Jung, Jihan Kim, Seon Joon Kim, and Sanggyu Chong

Subjects
Nitrogen Dioxide, Bioengineering, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, chemistry.chemical_compound, Adsorption, Chemical Moiety, Air Pollution, Spectroscopy, Fourier Transform Infrared, Polyethyleneimine, Sulfur Dioxide, Moiety, Molecule, Instrumentation, Amination, Fluid Flow and Transfer Processes, Air Pollutants, Polyethylenimine, Nanotubes, Carbon, Process Chemistry and Technology, Rational design, Equipment Design, Carbon Dioxide, 021001 nanoscience & nanotechnology, Combinatorial chemistry, 0104 chemical sciences, chemistry, Amine gas treating, 0210 nano-technology, Selectivity, Environmental Monitoring
Abstract

Strong acidic gases such as CO2, SO2, and NO2 are harsh air pollutants with major human health threatening factors, and as such, developing new tools to monitor and to quickly sense these gases is critically required. However, it is difficult to selectively detect the acidic air pollutants with single channel material due to the similar chemistry shared by acidic molecules. In this work, three acidic gases (i.e., CO2, SO2, and NO2) are selectively discriminated using single channel material with precise moiety design. By changing the composition ratio of primary (1°), secondary (2°), and tertiary (3°) amines of polyethylenimine (PEI) on CNT channels, unprecedented high selectivity between CO2 and SO2 is achieved. Using in situ FT-IR characterizations, the distinct adsorption phenomenon of acidic gases on each amine moiety is precisely demonstrated. Our approach is the first attempt at controlling gas adsorption selectivity of solid-state sensor via modulating chemical moiety level within the single channe...

Published
2018
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45. Metallic Ti3C2Tx MXene Gas Sensors with Ultrahigh Signal-to-Noise Ratio

Author

Choong-Ki Kim, Jihan Kim, Seon Joon Kim, Yury Gogotsi, Hyeong-Jun Koh, Chang E. Ren, Babak Anasori, Soo-Yeon Cho, Yang-Kyu Choi, Hannes Jung, Ohmin Kwon, and Kathleen Maleski

Subjects
Detection limit, Materials science, business.industry, Orders of magnitude (temperature), General Engineering, General Physics and Astronomy, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Signal, 0104 chemical sciences, Carbide, Semiconductor, Signal-to-noise ratio, Optoelectronics, General Materials Science, 0210 nano-technology, business, MXenes, Sensitivity (electronics)
Abstract

Achieving high sensitivity in solid-state gas sensors can allow the precise detection of chemical agents. In particular, detection of volatile organic compounds (VOCs) at the parts per billion (ppb) level is critical for the early diagnosis of diseases. To obtain high sensitivity, two requirements need to be simultaneously satisfied: (i) low electrical noise and (ii) strong signal, which existing sensor materials cannot meet. Here, we demonstrate that 2D metal carbide MXenes, which possess high metallic conductivity for low noise and a fully functionalized surface for a strong signal, greatly outperform the sensitivity of conventional semiconductor channel materials. Ti3C2Tx MXene gas sensors exhibited a very low limit of detection of 50–100 ppb for VOC gases at room temperature. Also, the extremely low noise led to a signal-to-noise ratio 2 orders of magnitude higher than that of other 2D materials, surpassing the best sensors known. Our results provide insight in utilizing highly functionalized metallic...

Published
2018
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46. Molybdenum carbide chemical sensors with ultrahigh signal-to-noise ratios and ambient stability

Author

Jihan Kim, Ohmin Kwon, Soo-Yeon Cho, Ju Ye Kim, and Hannes Jung

Subjects
Materials science, Renewable Energy, Sustainability and the Environment, chemistry.chemical_element, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Corrosion, Carbide, Metal, Crystal, Chemical engineering, chemistry, Molybdenum, visual_art, Phase (matter), visual_art.visual_art_medium, Density of states, General Materials Science, Chemical stability, 0210 nano-technology
Abstract

Herein, we present a demonstration of the usability of the chemical sensing properties of transition metal carbides (TMCs) as gas sensing channels. Two phases of nanostructured molybdenum carbide (α-MoC1−x and β-Mo2C) with high porosities were perfectly synthesized by a temperature-programmed reduction (TPR) method, and they showed distinct metallic characteristics due to different density of states (DOS) localization status. The molybdenum carbide sensors showed novel gas sensing characteristics which have not been shown by previous typical sensing materials: predominantly, an unprecedentedly high signal-to-noise ratio (SNR) with the ability to detect the ppb levels of NH3 and NO2 was achieved, which is attributed to a combination of high electrical conductivity and superior catalytic properties. In addition to high sensitivity, unlike previous channel materials, the molybdenum carbide sensors showed very high ambient stability. The electrical conductivity and sensing performance are well preserved for half-year ambient exposure without any oxidation or degradation of channel materials, due to the good corrosion resistance and low chemical reactivity of molybdenum carbides. In addition, a versatile gas sensing response is observed according to the crystal phase of molybdenum carbides due to the distinct DOS of α-MoC1−x and β-Mo2C. We believe that this observation of new chemical sensing materials can shed light on the superior potential of TMCs for highly sensitive and stable low-power operating internet-of-things (IoT) sensors. In addition, owing to their ultra-high chemical stability and high melting temperature, TMCs can be utilized as channel materials for sensors in harsh operating conditions.

Published
2018
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47. Tunable Chemical Sensing Performance of Black Phosphorus by Controlled Functionalization with Noble Metals

Author

Hae Wook Yoo, Hyeong-Jun Koh, Hannes Jung, and Soo-Yeon Cho

Subjects
Graphene, Chemistry, General Chemical Engineering, Analytical chemistry, Nanoparticle, Nanotechnology, 02 engineering and technology, General Chemistry, engineering.material, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, law.invention, Adsorption, law, Oxidizing agent, Materials Chemistry, engineering, Molecule, Surface modification, Noble metal, Work function, 0210 nano-technology
Abstract

In this work, the effects of noble metal (Au and Pt) incorporation into black phosphorus (BP) were first investigated. Several important sensing results were observed as a result of the incorporation of Au or Pt into the BP surface. First, prior to incorporation, pristine BP only detects paramagnetic molecules, e.g., NO2 or NO. However, after incorporation with Pt, low concentration of H2 can be detected with high response amplitude. Furthermore, the H2 sensing performance reported in this study was found to be most sensitive as compared with that observed for a previously reported 2D H2 gas sensor. The second significant result was obtained after incorporation with Au, where the work function of BP was varied by the transfer of electrons from the Au nanoparticles, thereby inducing the effects of n-doping on p-type pristine BP. Accordingly, the response behavior of BP to oxidizing gas changed from a p-type response (negative resistance variation) to an n-type response (positive resistance variation). In a...

Published
2017
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48. Tunable Volatile-Organic-Compound Sensor by Using Au Nanoparticle Incorporation on MoS2

Author

Soo-Yeon Cho, Hae-Wook Yoo, Hannes Jung, Hyeong-Jun Koh, and Jong-Seon Kim

Subjects
Fluid Flow and Transfer Processes, chemistry.chemical_classification, Materials science, Process Chemistry and Technology, Doping, Nanoparticle, Bioengineering, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Electric charge, Exfoliation joint, 0104 chemical sciences, Hydrocarbon, chemistry, Surface modification, Nanometre, Volatile organic compound, 0210 nano-technology, Instrumentation
Abstract

Controlling the charge concentrations of two-dimensional (2D) materials is a critical requirement for realizing versatility and potential application of these materials in high-performance electronics and sensors. In order to exploit the novel chemical-sensing characteristics of 2D materials for sensitive and selective sensors, various functionalization methods are needed to ensure efficient doping of channels based on 2D materials. In the present study, the gas-sensing performance of MoS2 has been significantly enhanced by controlled Au nanoparticle functionalization. By using the difference in reduction potential between the Au precursor and MoS2 work functions, MoS2 prepared by chemical exfoliation process was decorated with nanoparticles with sizes of tens of nanometers. The n-doping effect of Au nanoparticles was observed, that is, these particles were found to have facilitated in electron charge transfer from Au to MoS2. The controlled n-doping effect enables the tuning of the sensing of hydrocarbon...

Published
2017
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49. Continuous Meter-Scale Synthesis of Weavable Tunicate Cellulose/Carbon Nanotube Fibers for High-Performance Wearable Sensors

Author

Seoungwoong Park, Hye-Jin Hong, Seoung-Ki Lee, Hyeon Su Jeong, Hannes Jung, Jung-Hoon Choi, Soo-Yeon Cho, Hayoung Yu, Hohyung Kang, Il-Doo Kim, and Ji-Soo Jang

Subjects
Fabrication, Materials science, Composite number, Nanofibers, General Physics and Astronomy, Wearable computer, Nanotechnology, 02 engineering and technology, Carbon nanotube, Biosensing Techniques, engineering.material, 010402 general chemistry, Nitric Oxide, 01 natural sciences, law.invention, Nanocellulose, Wearable Electronic Devices, Coating, law, Animals, Humans, General Materials Science, Fiber, Urochordata, Cellulose, Spinning, Nanotubes, Carbon, Textiles, General Engineering, 021001 nanoscience & nanotechnology, 0104 chemical sciences, engineering, 0210 nano-technology
Abstract

Weavable sensing fibers with superior mechanical strength and sensing functionality are crucial for the realization of wearable textile sensors. However, in the fabrication of previously reported wearable sensing fibers, additional processes such as reduction, doping, and coating were essential to satisfy both requirements. The sensing fibers should be continuously synthesized in a scalable process for commercial applications with high reliability and productivity, which was challenging. In this study, we first synthesize mass-producible wearable sensing fibers with good mechanical properties and sensing functionality without additional processes by incorporating carbon nanotubes (CNTs) into distinct nanocellulose. Nanocellulose extracted from tunicate (TCNF) is homogeneously composited with single-walled CNTs, and composite fibers (TCNF/CNT) are continuously produced in aligned directions by wet spinning, facilitating liquid-crystal properties. The TCNF/CNT fibers exhibit a superior gas (NO2)-sensing performance with high selectivity and sensitivity (parts-per-billion detection). In addition, the TCNF/CNT fibers can endure complex and harsh distortions maintaining their intrinsic sensing properties and can be perfectly integrated with conventional fabrics using a direct weaving process. Our meter-scale scalable synthesis of functional composite fibers is expected to provide a mass production platform of versatile wearable sensors.

Published
2019

50. Ten Nanometer Scale WO

Author

Soo-Yeon, Cho, Doohyung, Jang, Hohyung, Kang, Hyeong-Jun, Koh, Junghoon, Choi, and Hee-Tae, Jung

Abstract

The fabrication of p-n heterostructures of a metal oxide semiconductor (MOS) showed that a large amount of heterojunction interfaces is one of the key issues in MOS gas sensor research, since it could significantly enhance the sensing performance. Despite considerable progress in this area, fabrication of an ideal p-n heterojunction sensing channel has been challenging because of morphological limitations of synthetic methods in the conventional bottom-up fabrication based on precursor reductions. In this study, a 10 nm scale p-n heterojunction nanochannel was fabricated with ultrasmall grained WO

Published
2019

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