Research Stories

Search article
  • Professor Wonyoung Lee’s group develops the world’s best-performing proton conducting fuel cell

    Mechanical Engineering Prof. LEE, WON YOUNG ·Post-doc researcher Mingi Choi

    Professor Wonyoung Lee’s group develops the world’s best-performing proton conducting fuel cell

    Professor Wonyoung Lee’s research team (First author, Mingi Choi, Post-doctoral researcher) at the Department of Mechanical Engineering of Sungkyunkwan University (President Dong-Ryeol Shin) announced that preservation of intrinsic properties of proton conducting electrolytes enables the fuel cell performance to remarkably be improved, resulting in world’s best-performing proton conducting fuel cell. Proton conducting fuel cell has been considered as next-generation ceramic based fuel cell type based on its high ionic conductivity and low activation energy for ion conduction. Although proton conducting fuel cell has been expected to demonstrate the high efficiency and high performance at the low temperature, difficulties in manufacturing still has remained challenge, hindering its wide-spread uses. The research team systematically discovered the underlying mechanism of low performance of proton conducting fuel cell than predicted, and revealed that the volatilization of components in crystal structure of electrolyte during the manufacturing process significantly affect to the grain growth and low chemical stability. The research team proposed the breakthrough for suppressing the undesired volatilization of components, resulting in about 5-fold larger grain size than the previously reported values with prefect chemical composition inside the electrolyte. Based on this perfectly stoichiometric electrolyte, a proton conducting fuel cell system demonstrates the world’s best performance at an operating temperature range of 500-650 °C, which greatly exceeds previously reported values. Professor Wonyoung Lee said, “We overcame the technical challenge for manufacturing the proton conducting fuel cell. Especially, since it demonstrated the world’s best performance using non-complicated method, we believe that this technology can be readily commercialized and can open the possibilities of wide-spread utilization of fuel cell for hydrogen powered stationary power plant, contributing the renewable energy society.” This research is supported by the mid-level research support project of the National Research Foundation (No. 2019R1A2C4070158) and the Sejong Science Fellowship support project (No. 2021R1C1C2006657). It was published online on October 16th in Energy & Environmental Science (IF: 38.53, JCR<1%), an international academic journal in the field of energy. [Figure 1] Correlation between chemical composition and grain growth and chemical stability of the proton conducting electrolyte manufactured by control of volatilization of composition. [Figure 2] Effects of the chemical potential of Ba on the phase separation, grain growth, and proton conductivity as a function of the sintering temperature.

  • Developement of artificial intelligence semiconductor: optoelectronic synaptic device

    Electronic and Electrical Engineering Prof. PARK, JIN HONG ·Dr. Seunghwan Seo & Dr. Je-Jun Lee

    Developement of artificial intelligence semiconductor: optoelectronic synaptic device

    Advanced Materials 5th October (IF: 12.121); An optogenetics-inspired flexible van-der-Waals optoelectronic synapse and its application to convolutional neural network; Seunghwan Seo (1st author) / Je-Jun Lee (1st author) / Prof. Jin-Hong Park (Corresponding author) □ Neuromorphic chips that mimic the learning principle of the human brain are in the spotlight as next-generation processing chips because they can minimize power consumption by processing a large amount of information in parallel and improve their computational functions through learning. In particular, various researches on synaptic semiconductor devices, which are essential for realizing parallel information processing and learning capabilities of neuromorphic chips, have been actively conducted worldwide. □ The research team implemented a flexible optoelectronic synapse on 2D vdW layered rhenium disulfide, which features an inherent photosensitive memory nature derived from the intrinsic persistent photoconductivity effect. Then, the research team successfully demonstrated the applicability of the flexible 2D vdW optoelectronic synapse to optogenetics-inspired intelligent systems via training and inference tasks using a convolutional neural network and the CIFAR-10 dataset. □ These studies were published in the Advanced Materials on October 5th.

  • Green hydrogen production: Restructuring highly electron-deficient metal-metal oxides

    Chemistry Prof. LEE, HYOYOUNG ·Dr. Liu, Xinghui

    Green hydrogen production: Restructuring highly electron-deficient metal-metal oxides

    While traditional hydrogen production processes require fossil fuels or CO2, electrolysis produces “green hydrogen” from water molecules. Since water cannot be split into hydrogen and oxygen by itself, the electrochemical hydrogen-water conversion needs highly active electrocatalysts. Conventional water electrolysis, however, faces technological challenges to improve the efficiency of the water-splitting reaction for the sluggish oxygen evolution reaction. Though the alkaline water electrolysis technology is dominating the large-scale production of H2, proton exchange membrane (PEM) water electrolysis has clear advantages such as compact configuration, larger maximum current densities, higher energy efficiency, less H2 impurity, and dynamic flexibility of operation. As a half-reaction of water splitting, oxygen evolution reaction (OER) is a major bottleneck due to its sluggish kinetics, while the current OER catalysts typically degrade rapidly under acidic conditions, are not stable in highly oxidative environments, and are of high cost. Thus, developing low-cost and high-efficiency OER catalysts, especially those stable in acidic media, has been a pressing need but remains a grand challenge. Led by Professor LEE Hyoyoung of Sungkyunkwan University, the research team developed a highly efficient and long-lasting electrocatalyst for OER using iridium and MoO3. “ We introduce electron-deficient metal on semiconducting metal oxides-consisting of Ir-MoO3 embedded by graphitic carbon layers (IMO) using an electrospinning method. To rationally design electron-deficient metal on metal oxides, the electrospinning strategy aid of polyvinylpyrrolidone (PVP) facilitates the different reduction ability of the two metal oxides because their formation energies are -0.862 eV/atom for IrO2 and -1.929 eV/atom for MoO3. PVP was adopted to help reduce the IrO2-only in the air annealing condition (500 °C) to achieve the electron-deficient surface of Ir and to provide graphitic carbon layers from thermal decomposition. The graphitic carbon layer acted as the protective layer to confer high durability and conductivity to facilitate the fast electron transfer during the OER process. IMO nanocomposite can therefore be successfully synthesized via the economical one-pot to create an electron-deficient surface on Ir (Irx+; x > 4) by virtue of two factors: (i) surface oxygen of Ir; (ii) the electron-withdrawing material of MoO3.” says LIU Xinghui the first authors of the study. “We were very excited to discover that highly electron-deficient metal-metal oxides surface for IMO, demonstrated superior OER activity by evidence of ultra-low overpotential and high stability compared to the benchmark materials of Ir and RuO2 since the synergic effect of high surface state of Ir with the help of the Mo5+ can withstand resistance in an oxidation state,” notes Professor Lee, the corresponding author of the study. The researchers found that the electrospinning synthesized method not only works for metal of Ir-MoO3. The metal metal-metal oxides systems for Rh-MoO3, Au-MoO3, Ru-MoO3 were created, which provides the general strategy-electron-deficient surface of metal on metal oxides driven by surface oxygen and electron-withdrawing groups of the substrate for guiding other metal-semiconductor design. The research team evaluated the catalytic efficiency with the overvoltage metrics needed for the oxygen evolution reaction. The advanced noble electrocatalyst required only 156 mV (millivolt) overvoltage to attain a current density of 10 mA (milliampere) per cm2 of catalyst, while ruthenium oxide needed 293 mV and Iridium needed 328 mV. In addition, the IMO showed long-term stability for 48 hours without surface change of surface structure. Furthermore, the proton dissociation pathway is suggested via surface oxygen serving as proton acceptors, based on the density functional theory simulation. ▲ The schemic diagram for the OER process using highly electron-deficient iridium metal on metal oxides of MoO3. Professor explains, “This study suggests high stability with high catalytic performance in these materials by creating electron-deficient surfaces and provides a general, unique strategy for guiding the design of other metal-semiconductor nanocatalysts. This study takes us a step closer to a carbon-free and green hydrogen economy. This highly efficient and inexpensive oxygen generation electrocatalyst will help us overcome long-term challenges of the fossil fuel refining process: to produce high-purity hydrogen for commercial applications at a low price and in an eco-friendly manner.” The study was published online in the journal Nature Communications. Notes for editors - References Xinghui Liu, Shibo Xi, Hyunwoo Kim, Ashwani Kumar, Jinsun Lee, Jian Wang, Ngoc Quang Tran, Taehun Yang, Xiaodong Shao, Mengfang Liang, Min Gyu Kim, Hyoyoung Lee Restructuring highly electron-deficient metal-metal oxides for boosting stability in acidic oxygen evolution reaction. Nature Communications. doi.org/10.1038/s41467-021-26025-0

  • Development of Pri-Actor system via coupling bioprinter with an in situ bioreactor

    Bio-Mechatronic Engineering Prof. KIM, GEUNHYUNG ·Mr. Wonjin Kim, Dr. Hyeongjin Lee, Mr. Hanjun Hwangbo

    Development of Pri-Actor system via coupling bioprinter with an in situ bioreactor

    The research team led by professor Geun HyungKim in the biomechatronic engineering department developed a “Pri-Actor”bioprinting system named via coupling bioprinter with in situ bioreactorwhich can effectively induce myogenesis to the host cell. The term “Pri-actor”is an amalgamation of printer and bioreactor. Figure 1. Schematical diagram of “Pri-Actor” system. The Pri-Actor system utilizes simultaneous in situ supplementation of physical force (electric field & UV radiation) during the extrusion process of human Adipose Stem Cells (hASCs)-ladened bioink. Subsequentially, a significantly higher degree of cell proliferation and myogenesis was observed with the Pri-Actor printing system. During the short supplementation of electric field (~0.1 s) various printing parameters have been optimized for the optimum degree of myogenic related signaling pathways and activation of ion voltage channels, as well as cellular alignment and effective formation of myotubes. The bio-construct printed via the Pri-Actor system were further analyzed in volumetric muscle defect in the animal model (rat). As result, functional muscle formation with vascular and nervous networks was observed. In addition, the physical analysis revealed that muscle functionality was fully recovered to pre-defect levels. Professor Geun Hyung Kim has stated “Based on the promising results, the Pri-Actor system can effectively mimic the native anatomical structures of muscle, as well as fully restoring the functionality of muscle” Figure 2. schematical diagram of in situ “Pri-Actorsystem” and histological staining of isolated trabecular muscle 8 weeks afterimplantation. Professor Geun Hyung Kim has stated, “Based onthe promising results, the Pri-Actor system can effectively mimic the nativeanatomical structures of muscle, as well as fully restoring the functionalityof muscle”. In addition, he has stated “By controlling the physical stimulationincorporated in the current system can effectively target various oforgans/tissues in the human body. Additionally, further development of the Pri-Actorsystem can expand its potential into a personalized fabrication system forvarious tissues and organs. This study was supported by an NRF grant fundedby the Ministry of Science and ICT for the Bioinspired Innovation TechnologyDevelopment Project. In addition, these studies were published in “AdvancedFunctional Materials” (Impact factor = 18.8) on 2021/08, “Bioactive materials”(Impact factor = 14.6) on 2021/07, and “Chemical Engineering Journal (Impactfactor = 13.3) on 2021/04. Furthermore, these studies were featured in ArirangTV BizTech Korea “Outlook for regenerative medicine” on 2021/08/04 ※Papertitle: A Bioprinting Process Supplemented with In Situ Electrical StimulationDirectly Induces Significant Myotube Formation and Myogenesis. (AdvancedFunctional Materials) ※ Paper title: Bio-printing of aligned GelMa-basedcell-laden structure for muscle tissue regeneration. (Bioactive Materials) ※ Paper title: Bioprinted hASC-laden structures withcell-differentiation niches for muscle regeneration. (Chemical EngineeringJournal) ※Arirang TV: https://www.youtube.com/watch?v=VsgMBgr3EwU

  • Enhanced cancer immunotherapy via controlling immunosuppressive factors with nanotherapeutic platform (AIMS)

    SKKU Advanced Institute of Nano Technology Prof. LIM, YONGTAIK ·Researcher Seung Mo Jin/Sang Nam Lee

    Enhanced cancer immunotherapy via controlling immunosuppressive factors with nanotherapeutic platform (AIMS)

    The research team of Prof. Yong Taik Lim (SKKU Advanced Institute of Nanotechnology, SAINT) developed nanotherapeutic platform(AIMS; Assemblable Immune Modulating Suspension) that can control the immunosuppressive factors in tumor microenvironment (TME) and showed that it can overcome the chemo-immunotherapeutic induced immune tolerance. They focused on the fact that chemo-immunotherapy increases the expression of representative immunosuppressive factor, IDO (Indoleamine-2,3-Dioxygenase) in tumor microenvironment and lymph node, and IDO drawbacks the therapeutic efficacy and induces immune tolerance. To overcome this limitation, researchers included the immunosuppressive reliever to vaccine component (antigen and adjuvant) and developed as a nanotherapeutic platform (AIMS), first in the world. In vivo results indicate that AIMS not only increases the proliferation and polarization of antigen-specific T cells, but also relieves the immunosuppressive cells (MDSC and Treg) and immunosuppressive cytokines(TGF-beta and IL-10) which hamper T cell functionality. Another advantage ofAIMS is that it lowers the systemic toxicity. This is possible because it induces sustain release of loaded drugs (chemotherapeutic agent, adjuvant, and immunosuppressive reliever) and localizes those drugs in the injection site. Byusing AIMS, the kinds and doses of encapsulated drugs can be easily adjustedand can be long-term storage as lyophilized form. This new platform is expected to be developed as a personalized medicine for cancer immunotherapy in the future. Especially, it is notable that the research conducted during the master course of the first authors (Seung Mo Jin and Sang Nam Lee) was published in the world’s leading multidisciplinary science journal ‘Advanced Science’ in August 7th, 2021. First authors of this research (Seung Mo Jin and SangNam Lee) have also published world’s leading chemistry journal ‘Accounts of Chemical Research’ (IF=22.384) in 2020 with Prof. Yong Taik Lim by introducing the materials for cancer immunotherapy. Paper Title: Overcoming Chemoimmunotherapy-Induced Immunosuppression by Assemblable and Depot Forming Immune Modulating Nanosuspension (Advanced Science (IF=16.806), August 7, 2021) Author: Seung Mo Jin (first author, Ph.D. course),Sang Nam Lee (first author, Master/Ph.D. integrated course), Yeon Jeong Yoo(co-author, Master course), Hong Sik Shin (co-author, Master/Ph.D. integratedcourse), Chang Hoon Lee (co-author, Master/Ph.D. integrated course), Soong HoUm (co-author, Professor), Yong Taik Lim (corresponding author, professor)

  • Utilization of social capital in establishing a social safety net for children

    Department of Child Psychology and Education Prof. Yanghee Lee ·Dr. Sangwon Kim

    Utilization of social capital in establishing a social safety net for children

    Social capital refers to potential or actual resources that can be accrued from their embedded relationships, and parents are considered as one of the vital sources from which children can obtain it. Social capital is particularly important in that it can be used to overcome harmful situations faced by children. In the past, social capital had been explored based on the accounts of adults, such as the degree in which parental social capital could be transmitted to children. However, with society's wider acceptance of children as active social agents, children's subjective reports on their social capital have recently gained greater consideration. Professor Yanghee Lee and Dr. Sangwon Kim (the Department of Child Psychology and Education, College of Social Science) stipulated that when parents are the perpetrators of violence, children may lack social capital. Thus, alternatives sources for social capital in children's immediate environment were identified and explored. This study utilized the responses of 4th graders (N= 2,844) from the Korean Youth Panel, and investigated whether social capital from siblings, friends, teachers, neighbors, and online acquaintances mediated the pathway of parental violence leading to aggression or depression. It was found that social capital obtained from siblings, teachers, and neighbors mediated the pathway between parental violence and aggression or depression, and this was consistent in aggression but not in depression. This finding is significant in that other sources of social capital would be crucial in breaking cycle of violence. Social capital obtained from friends did not have a significant mediating effect. It was further confirmed that continuous monitoring should be accompanied because social capital obtained from online acquaintances can lead to increased levels of aggression or depression. Professor Lee explained that this study is noteworthy in that it explored the role of other forms of social capital that can compensate for the lack of parental social capital. She added that it is the responsibility of all of us to protect children from all forms of violence, therefore it is essential to actively seek ways to develop and promote children's social capital. To establish a social safety net for children, Dr. Sangwon Kim said that it is necessary to explore various ways to utilize social capital by considering social capital measured both at the individual and the community level. This study was published in the internationally renowned journal titled Journal of Interpersonal Violence (SSCI, IF=6.144). Professor Lee served as a professor for 30 years and has researched child counseling, play therapy, interventions for children with developmental disabilities, child abuse and neglect, children's rights, and child resilience. She has published more than 100 papers in domestic and international academic journals. She is currently serving as an editorial board member in internationally renowned journals, including Child Abuse & Neglect (SSCI, IF = 3.928), International Journal of Children's Rights (SCOPUS), and others. Also, she served as a Guest editor in Child Abuse & Neglect (2009-2011; 2019-2020) and the International Journal of Children's Rights (2010).

  • Big data analytics for identifying student usage patterns and instructional strategies in an online learning platform

    Education Prof. KIM, DONGHO

    Big data analytics for identifying student usage patterns and instructional strategies in an online learning platform

    A research team led by Dong ho Kim, an assistant professor in the Department of Education, analyzed account information and behavioral log data collected fromabout 100,000 students using an AI-based math learning platform “Algebra Nation,” by leveraging the learning analytics approach and constructed a prediction model to forecast student dropout in the platform. The team carried out a multilevel-Survival Analysis to explore relationships between student dropout and online activities. Their findings shed light on the behavioral characteristics of at-risk online students. They also provided instructional strategies that can be adopted by teachers who want to boost student engagementin online learning platforms. Their work has recently been published in Computers and Education, one of top journals globally recognized as an outlet for research in education. The workhas received a great deal of attention from researchers as we are in face ofthe rapid growth of online learning in all education sectors. Prof. Dongho Kimhas engaged in the area of AI-based online learning platforms. His work focuses on applying a variety of educational technology theories to find out how to support students in technology-enhanced learning environments. “In the non-contact era, growing attention will be paid to online platformsd esigned to help students who are physically separated from their instructor.” JungwonLee, a graduate student in the Prof. Kim’s research team, said. Jungwon Lee is developing an AI chatbot for pre-service teachers to learn how to teach their students.

  • Examining the Complex Relationship Between Adiposity and Various Cardiovascular Diseases

    Samsung Advanced Institute for Health Sciences and Technology, SKKU Prof. WON, HONG HEE ·Researcher Minseo Kim

    Examining the Complex Relationship Between Adiposity and Various Cardiovascular Diseases

    <Graphical Abstract. Association between adiposity and cardiovascular outcomes: an umbrella review and meta-analysis of observational and Mendelian randomization studies. Eur Heart J. 2021> A research team led by Professor Hong-Hee Won (first author: Minseo Kim, and corresponding author: Hong-Hee Won) of the Samsung Advanced Institute for Health Sciences and Technology (SAIHST), Sungkyunkwan University, and Samsung Genome Institute (SGI), Samsung Medical Center, conducted a comprehensive analysis on adiposity and cardiovascular disease events and mortality, and published results in one of the most prestigious cardiology journals, European Heart Journal (Impact Factor 29.98)'. This study performed a meta-analysis of more than 500 cohorts to comprehensively analyze the effects of adiposity on the risk of nine cardiovascular diseases and mortality. The study design presented in this study enables a higher-resolution analysis for complex epidemiological topics by examining associations using a cohort study and causality through a genomic study. The relationship between adiposity and cardiovascular disease has been continuously studied for a long time, and it is known that adiposity increases the risk of cardiovascular disease. However, each study showed very heterogeneous results according to obesity metrics, ancestry, and cohort characteristics. In addition, obesity has a unique feature that it has a bidirectional interaction with the disease. That is, although the risk of cardiovascular disease is increased by obesity, conversely, the possibility that obesity is increased due to the occurrence of cardiovascular disease cannot be excluded. In the case of such a complex epidemiologic relationship, there is a limitation in that it is difficult to confirm the exact causality or direction of interaction only through observational studies. In interventional studies such as drug research, causality can be confirmed through a study design called a randomized controlled trial. In the case of obesity and cardiovascular disease, however, research mainly relies on observational studies because it is unethical to induce obesity through intervention. Due to the nature of observational studies, it is difficult to fundamentally exclude confounding variables, and in the case of the bidirectional phenotype such as obesity, it becomes more difficult to identify the relationship. To solve this problem, this research team grafted genome-based research to confirm causality to observational research for the first time. Mendelian randomization study used in this study is based on the fact that genetic variants are randomly assigned during meiosis to form groups with high or low genetic risk of obesity. Comparing the difference in the risk of cardiovascular disease for these two groups can evaluate whether obesity causes the disease without intervention. Mendelian randomization studies have the advantage of being able to obtain independent results from confounding variables and reverse causation caused by the environment because groups are randomly divided at the stage of meiosis. This is in contrast to the weakness of epidemiological studies that they can be often affected by confounding factors or reverse causation. This study presents new high-level evidence for the relationship between obesity and cardiovascular disease, which has been studied for a long time, by utilizing both the strength of large-scale observational studies (association confirmation), and the strength of genome-based research (causality confirmation). A researcher, Minseo Kim (graduated from Korea University College of Medicine and a M.A. student at SAIHST, Sungkyunkwan University), said, “There were weaknesses in clinical research while conducting clinical research. We devised a new research design that could augment clinical research with genomic approaches. This was possible because he learned both clinical research and genomics. It is expected that more sophisticated studies will be possible by using this research methodology for many epidemiological research topics in the future.” Professor Hong-Hee Won said, “This study is meaningful that it systematically presented scientific evidence for causality between obesity and the risk of cardiovascular disease by integrating large-scale epidemiological and genomic studies. As obesity has been shown to be responsible for various cardiovascular diseases and mortality risk, it is important to maintain ideal body weight and to adhere to healthy lifestyles to lower the risk of cardiovascular disease." The results of this study, which was supported by the National Research Foundation of Korea (NRF) grant funded by the Ministry of Science and ICT (Information and Communication Technologies) of the Korea government, were published in one of the most prestigious cardiology journals, 'European Heart Journal (Impact Factor 29.98)'. ▲ Prof. Hong-Hee Won, Ph.D. (corresponding author) ▲ Minseo Kim, M.D. (first author) ▲ A research team led by Professor Hong-Hee Won at SAIHST, Sungkyunkwan University, Samsung Medical Center

  • Atomic-scale disorder enabled ever-smaller and ever-more-efficient microlasers

    Chemical Engineering Prof. KIM, DONG HWAN ·Dr. Byeong-Seok Moon

    Atomic-scale disorder enabled ever-smaller and ever-more-efficient microlasers

    □ The research team of Prof. Dong-Hwan Kim (1st author: Dr. Byeong-Seok Moon) develop an ever-smaller and ever-more-efficient microlaser using a new upconversion material that has atomic-scale microstructural disorder through the collaboration with Prof. Young-Jin Kim (KAIST) and Prof. Sang Kyu Kwak (UNIST). □ Microlasers are the optical device that can generate laser emission while it is smaller than a few tenths of the thickness of a human hair. Microlasers have attracted a great attention because it can be used as a light source for photonic integrated circuits, for example, an optical communication chip (Intel® Silicon Photonics) for massive data transport. □ To bring the microlasers in our daily life, the researchers around the world have dedicated their efforts to further miniaturize the microlasers and improve their efficiency. However, as we miniaturize the microlasers, they lose their ability to confine and amplify the light. Therefore, the realization of both miniaturization and high laser efficiency has been considered as a challenging task. □ The research team of Prof. Dong-Hwan Kim has overcome this challenge by minimizing the energy loss of gain medium during laser process. □ The developed microlaser in this study has the great potential in next-generation biomedical technologies such like ‘sinlge-molecular biodetection’ and ‘real-time biosensing in live-cells’. Furthermore, since it is feasible for a light source of photonic integrated circuits, it will pave the way for highly-valued industrial applications. □ Prof. Kim said “We for the first time exploited the atomically disordered material for developing microlasers to overcome the conventional limitations of miniaturization and laser efficiency. By automating the fabrication and integrating systems, we are planing to utilize our microlaser as a solution for future technologies.” □ Continuous-wave upconversion lasing with a sub-10 W cm-2 threshold enabled by atomic disorder in the host matrix. Nature Communications, 12, Article number: 4437 (2021), (1st authors: Dr. Byeong-Seok Moon). Published July 21 2021 (IF: 14.919) ※ Title of paper : Continuous-wave upconversion lasing with a sub-10 W cm-2 threshold enabled by atomic disorder in the host matrix Fig. 1: Continuous-wave upconversion lasing in liquid-quenched upconversion microspheres (LQUM). Fig. 2: Ultralow-threshold continuous-wave upconversion lasing. Fig. 3: Theoretical analysis of the enhancement of the upconversion lasing efficiency in the amorphous phase of NaYF4 combined with SiO2.

  • A diagnostic patch that can be applied to disease treatment and provide therapeutic feedback was developed

    Chemical Engineering Prof. PANG, CHANGHYUN ·Jihyun Lee, Jin Ho Song

    A diagnostic patch that can be applied to disease treatment and provide therapeutic feedback was developed

    The research team of Prof. Changhyun Pang (1st authors: Jihyun Lee, Jin Ho Song, and Dr. Sangyul Baik) revealed the structure and principle of the adhesive cup existing on the foreleg of a male diving beetle. A diagnostic patch that can be applied to disease treatment and provide therapeutic feedback was developed for the first time. [1] Science Advances June 16 (IF: 14.136); Diving beetle–like miniaturized plungers with reversible, rapid biofluid capturing for machine learning–based care of skin disease, 7(25), eabf5695 (2021), (1st authors: Jihyun Lee and Dr. Sangyul Baik) [2] Chemical Engineering Journal May 7 (IF: 13.273); “Wet soft bio-adhesion of insect-inspired polymeric oil-loadable perforated microcylinders; 423, 130194 (2021) (1st authors: Jin Ho Song) The diving beetle, an aquatic insect, has a unique characteristic that distinguishes males and females, namely, the round sticky cups on its foreleg. This adhesive cup adheres well to the surface of the female's curved and rough back during mating in the water, and serves to detect chemicals required during mating. It is a unique evolutionary product of the male diving beetle species. Prof. Changhyun Pang in the Department of Chemical Engineering at Sungkyunkwan University (SKKU) report the new approach for the diagnosis and treatment of skin in advanced biomedical technologies. Related research papers are published in Science Advances (Impact Factor 14.136) journal and Chemical Engineering Journal (Impact Factor 13.273). Inspired by the male diving beetle, the microscale suction cups achieve repeatable, enhanced, and multidirectional adhesion to human skin in dry/wet environments, revealing the role of the cavities in these architectures. The hydrogels within the suction cups instantaneously absorb liquids from the epidermis for enhanced adhesiveness and reversibly change color for visual indication of skin pH levels. To realize advanced biomedical technologies for the diagnosis and treatment of skin, our suction-mediated device is integrated with a machine learning framework for accurate and automated colorimetric analysis of pH levels. Furthermore, the research team of Changhyun Pang developed omni-directional non-slip and damage-free soft surgical gripper. For this research outcome, the research team of Prof. Changhyun Pang try to mimic the complex adhesion mechanism of underwater insect creatures, which are composed by suction force and mucus (oil) adhesion. This kind of new approach (oil-assisted suction adhesion inspired adhesive) make the adhesive possible to attach on wet, soft organ surface comparing the previous study. Prof. Pang said that the skin diagnosis patch with non-powered body fluid capture system can be used in medical data-based disease diagnosis and self-diagnosis medical devices and services. * From the left Prof. Pang, Jihyun Lee, Jin Ho Song Fig 1. The diving beetle–like reversible microplungers with biofluid-capturing hydrogel Fig 2. Adhesion of the DIAs via structural deformation in dry and wet conditions

  • Proposal of an Algorithm for Automatic Classification of Civil Complaints in 160,000 Cases

    Interaction Science Prof. KIM, JANGHYUN ·Researcher Byungjun Kim/Kyeo Re Lee/Minjoo Yoo, Director Chul Park (Seoul Digital Foundation Keon)

    Proposal of an Algorithm for Automatic Classification of Civil Complaints in 160,000 Cases

    As a society of low birthrates and aging populations, capitals and large cities around the world are becoming more concentrated and complex problems are occurring accordingly. As more people flock to the city, the amount of complaints has increased, but there is not enough manpower to respond to them. Kim Jang-hyun, a professor of interaction science at our university proposed an algorithm to automatically classify 160,000 civil texts through machine learning from 2006 to 2017 and published in CITIES (SSCI, JCR 2019 IF= 4.802, Top 2). Based on Word2vec and Random forest, artificial intelligence can automatically classify complaints, including transportation, environment, and culture, with an accuracy of about 70%. Inefficient administrative procedures, which had to be classified by existing civil servants in charge of civil complaints, can be quickly and accurately transformed into efficient civil complaints through machine learning. In addition, we propose a method to analyze automatically complaints using dynamic topic modeling to predict complaints in the future. Finally, the data analysis process was disclosed in github and a book (Urban Data Standards Analysis Model: Civil Petitions Analysis) so that each local government can help build a smart city system in the future. You can find the book that manualized the paper and analysis process through the website below. https://www.sciencedirect.com/science/article/pii/S0264275120312890#f0005 https://github.com/SeoulDigitalFoundation/VoiceOfSeoul_AnalysisGuide https://sdf.seoul.kr/research-report/1241 Image 1. Subway seat care for elderly and preganant women Image 2. Emphasis on fine dust and energy saving issues

  • ERP Study of Liberals’ and Conservatives’ Moral Reasoning Processes: Evidence from South Korea

    Global Business Administration Prof. LEE, EUN JU ·Dr. Jin Ho Yun

    ERP Study of Liberals’ and Conservatives’ Moral Reasoning Processes: Evidence from South Korea

    This research shows the electrophysiological mechanism of how Korean liberals and conservatives have different moral values given the political confrontation in modern society and how different moral decisions are made in the context of business ethics. Professor Lee Eun-Ju's research team from the Department of Marketing at the SKK Business school published a paper in the Journal of Business Ethics (IF=5.453, Financial Times' Top 50 Journals List) that looked at how liberals and conservatives process dissociable psychological mechanisms in the Korean context of business ethics. The study was led by Jin Ho Yun under the topic of his Ph.D. dissertation. Do liberals’ and conservatives’ brain processes differ in moral reasoning? This research explains these groups’ dissimilar moral stances when they face ethical transgressions in business. Research that explores the effects of ideological asymmetry on moral reasoning processes through moral foundations (i.e., fairness and authority) has been limited. We hypothesize two different moral reasoning processes and test them in the South Korean culture. Study 1 uses the neuroscientific method of event-related potentials (ERP) to explore the dissociable neural mechanisms that underlie Korean liberals’ and conservatives’ moral reasoning processes in business ethical transgressions. Liberals’ early frontal negative-going (EFN) brain waves showed that they are quick to pass negative judgment by intuitively detecting violations of fairness (i.e., moral engagement), while conservatives’ temporoparietal positive-going (TPP) brain waves showed that they have a higher motivation to respect authority (i.e., moral rationalization). Both liberals’ and conservatives’ ERP components occur within the first second of the decision-making phase, suggesting the rapid and intuitive nature of moral reasoning processes. Study 2 tests a mediating process and confirms that Korean liberals (conservatives) exhibit the moral engagement (rationalization) strategy, through the fairness (authority) foundation. These findings from our interdisciplinary research deepen the knowledge of the complexity of human morality in business ethics research. Additionally, the lead author, Jin Ho Yun, has received an offer as an assistant professor by Ecole de Management Léonard De Vinci (EMLV) in Paris, France, but he will shortly join the Wharton Neuroscience Initiative (WiN) at the University of Pennsylvania. As a post-doctoral researcher, he will continue to contribute to the areas of neuroeconomics, consumer neuroscience, and business ethics.

  • Content Manager