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Lee, Sung-Hyun,Kim, Hye-Rim,Lee, Taeseon,Lee, Haemin,Lee, Jinwoo,Lee, Jaegeun,Park, Junbeom,Lee, Kun-Hong Elsevier 2017 Carbon Vol.124 No.-
<P>Carbon nanotube (CNT) fibers were synthesized from ethylene, acetylene, or methane by separately injecting ferrocene and the carbon precursors during a direct spinning process. Ethylene and acetylene have low decomposition temperatures. It was difficult to synthesize CNT fibers from these precursors using the direct spinning method. CNT fibers were continuously synthesized by delaying the contact time between the catalyst particles and the carbon precursors, which provided sufficient time for catalyst growth. Changes in catalyst size from 2 nm to 20 nm were observed as a function of the catalyst formation step setting temperature (350-440 degrees C) and the carbon precursor injection tube length (8-310 mm), and the relationship between the catalyst size and the CNT diameter was characterized. The CNT fibers had higher I-G/I-D ratios when synthesized from acetylene (69.87) or ethylene (18.52) than from methane (3.61). The choice of the carbon precursor had a much larger effect on the I-G/I-D ratio of the synthesized CNT fibers than the other operating variables. (C) 2017 Elsevier Ltd. All rights reserved.</P>
Lee, Sung-Hyun,Park, Junbeom,Kim, Hye-Rim,Lee, Taeseon,Lee, Jaegeun,Im, Yong-O.,Lee, Cheol-Hun,Cho, Hyunjung,Lee, Hyeseon,Jun, Chi-Hyuck,Ahn, Yu-Chan,Lee, In-Beum,Lee, Kun-Hong Elsevier 2016 Carbon Vol.100 No.-
<P>The optimum synthesis conditions for carbon nanotube (CNT) fibers were investigated using the Design of Experiment (DOE) technique. Direct spinning processes are governed by a variety of experimental factors: the methane flow rate, ferrocene flow rate, sulfur flow rate, hydrogen flow rate, water flow rate, and reaction temperature. The process was optimized in two stages that addressed first the Fractional Factorial Design (FFD) and then the Response Surface Methodology (RSM). Results from each experiment were classified according to a 6-step rating system: nothing(1), black gas(2), dust(3), ribbon or film(4), fiber(5), or continuous fiber(6). In the first step, three major factors (methane, sulfur, temperature) were identified as important among the six experimental factors tested using FFD. The effects of the major factors and the interactions were analyzed through the main effect plot and the interaction plot. In the second step, the experimental conditions were optimized using a model equation derived from Box-Behnken design experiments. Finally, the CNT fibers were continuously synthesized under the optimum conditions. The synthesized CNT fibers mainly consisted of single-walled CNTs (SWCNTs) 1.2 -3.8 nm in diameter. The I-G/I-D ratio of the CNT fibers was 48. This work provides a useful methodology for synthesizing the CNT fibers. (C) 2016 Elsevier Ltd. All rights reserved.</P>
[PB-0064] Isolation of Ab-rg rich saponin mutants from EMS-induced population in soybean
Junbeom Park(Junbeom Park),Jagadeesh Sundaramoorthy(Jagadeesh Sundaramoorthy ),Jinwon Lee(Jinwon Lee),Jeong-Dong Lee(Jeong-Dong Lee),Hak Soo Seo(Hak Soo Seo),Jong Tae Song(Jong Tae Song) 한국육종학회 2022 한국육종학회 공동학술발표집 Vol.2022 No.-
[PB-0062] Isolation of soybean ARGONAUTE protein involved in seed coat color pigmentation
Jinwon Lee(Jinwon Lee),Gyu Tae Park(Gyu Tae Park),Hyun Jo(Hyun Jo),Jeongyun Ko(Jeongyun Ko),Junbeom Park(Junbeom Park),Jeong-Dong Lee(Jeong-Dong Lee),Jong Tae Song(Jong Tae Song) 한국육종학회 2022 한국육종학회 공동학술발표집 Vol.2022 No.-
Park, Junbeom,Lee, Jaegeun,Lee, Dong-Myeong,Lee, Sung-Hyun,Jeong, Hyeon Su,Lee, Kun-Hong,Kim, Seung Min Elsevier 2019 Carbon Vol.152 No.-
<P><B>Abstract</B></P> <P>The mechanical behaviors of carbon nanotube yarn (CNTY) can be described as collective mechanical behaviors of the components that comprise its hierarchical structures. The internal structures and mechanical behaviors of CNTYs closely resemble those of bio-materials, so we developed a simple mathematical model inspired by the mechanical behaviors of bio-materials to fully describe the mechanical behaviors of CNTYs during tensile testing. The developed model successfully fitted the experimental modulus-strain (M-S) curves of four types of CNTYs that have different internal structures and different M-S curves; this result confirms the generality of the model to describe the mechanical behaviors of CNTYs. The model parameters provide explanations of the structural characteristics of various CNTYs.</P> <P><B>Graphical abstract</B></P> <P>[DISPLAY OMISSION]</P>
Gender-related Differences in Management of Nonvalvular Atrial Fibrillation in an Asian Population
Lee, Jung Myung,Kim, Tae-Hoon,Cha, Myung-Jin,Park, Junbeom,Park, Jin-Kyu,Kang, Ki-Woon,Shim, Jaemin,Uhm, Jae-Sun,Kim, Jun,Park, Hyung Wook,Lee, Young Soo,Choi, Eue-Keun,Kim, Chang-Soo,Joung, Boyoung,K The Korean Society of Cardiology 2018 Korean Circulation Journal Vol.48 No.6
<P><B>Background and Objectives</B></P><P>Gender-related differences in health care utilization for atrial fibrillation (AF) are increasingly recognized. However, large cohort data for examining gender-related differences in AF are lacking in Asian populations.</P><P><B>Methods</B></P><P>The Registry for Comparison Study of Drugs for Symptom Control and Complication Prevention of AF (CODE-AF Registry) is a prospective observational cohort-study that enrolled participants at 10 tertiary hospitals in South Korea. Baseline characteristics retrieved from the CODE-AF Registry were analyzed.</P><P><B>Results</B></P><P>A total of 6,274 patients were recruited (mean age 67±11 years, mean CHA<SUB>2</SUB>DS<SUB>2</SUB>-VASc score 2.7±1.7, 63% male, 65% paroxysmal AF) from June 2016 to April 2017. Women underwent less electric cardioversion (12.3% vs. 19.6%, p<0.001), less radiofrequency ablation (12.4% vs. 17.9%, p<0.001), and less antiarrhythmic drug therapy (44.7% vs. 49.5%, p<0.001), despite having more severe symptoms (symptom class III or IV, 45.8% vs. 37.5%, p<0.001). Among patients with a CHA<SUB>2</SUB>DS<SUB>2</SUB>-VA score of 2 or more, a slightly higher proportion of women were taking oral anticoagulants than men (85.7% vs. 81.9%, p=0.002), and non-vitamin K antagonist oral anticoagulant (NOAC) use was more prevalent in women than men (70.4% vs. 62.3%, p<0.001). Insufficient NOAC dosing was very common, more so in women than men (61.5% vs. 56.3%, p<0.001).</P><P><B>Conclusions</B></P><P>Female patients with AF were treated more conservatively and rhythm control strategies were used less frequently than in males, even though the female patients with AF had more severe symptoms. While insufficient NOAC dosing was common in both sex, it was significantly more frequent in women.</P>
High-strength carbon nanotube/carbon composite fibers via chemical vapor infiltration
Lee, Jaegeun,Kim, Teawon,Jung, Yeonsu,Jung, Kihoon,Park, Junbeom,Lee, Dong-Myeong,Jeong, Hyeon Su,Hwang, Jun Yeon,Park, Chong Rae,Lee, Kun-Hong,Kim, Seung Min The Royal Society of Chemistry 2016 Nanoscale Vol.8 No.45
<P>In this study, we have developed an efficient and scalable method for improving the mechanical properties of carbon nanotube (CNT) fibers. The mechanical properties of as-synthesized CNT fibers are primarily limited by their porous structures and the weak bonding between adjacent CNTs. These result in inefficient load transfer, leading to low tensile strength and modulus. In order to overcome these limitations, we have adopted chemical vapor infiltration (CVI) to efficiently fill the internal voids of the CNT fibers with carbon species which are thermally decomposed from gas phase hydrocarbon. Through the optimization of the processing time, temperature, and gas flow velocity, we have confirmed that carbon species formed by the thermal decomposition of acetylene (C2H2) gas successfully infiltrated into porous CNT fibers and densified them at relatively low temperatures (650-750 degrees C). As a result, after CVI processing of the as-synthesized CNT fibers under optimum conditions, the tensile strength and modulus increased from 0.6 GPa to 1.7 GPa and from 25 GPa to 127 GPa, respectively. The CVI technique, combined with the direct spinning of CNT fibers, can open up a route to the fast and scalable fabrication of high performance CNT/C composite fibers. In addition, the CVI technique is a platform technology that can be easily adapted into other nano-carbon based yarn-like fibers such as graphene fibers.</P>