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A ground-breaking ceremony for Hyegang Hall, a new laboratory building, was held on May 8. The Hall, a seven-story building with two basement floors, is set to be completed by August 2022. The ceremony was held with the attendance of officials from the Daewoo Educational Foundation and Ajou University, including Mr. Choo Ho-seok, Chairman of the Daewoo Educational Foundation, Mr. Kim Sun-yong, Permanent Director of the Daewoo Educational Foundation, Dr. Park Hyung-ju, President of Ajou University, and other prominent officials at Ajou. It was also attended by Prof. Na Sang-sin, Mr. Cho Jae-hyun, University Labor Union Leader, Mr. Kim Hyun-bin, President of the Student Council, Mr. Ahn Chang-joon President of the General Alumni Association, and related officials from the construction and architectural firm. Mr. Kim Yong-deok, Head of Yeongtong-gu Office, participated to represent the city of Suwon as well. Hyegang Hall, with a total area of 13,223 square meters (4,000 pyeong), will be built behind Dasan Hall and the Collage of Pharmacy Building. The first and second floors will be used for academic-industrial cooperation, while the third to the seventh floors will be designed for research. “Hyegang” was the pen name of Choi Han-ki, a silhak (practical science) scholar and a natural science thinker during the Joseon Dynasty. Based on his deep understanding of Western natural sciences in convergence with the traditional theory of energy in Korea, he was able to pave the way for new philosophical thinking. He was also the author of “Singicheonheom,” one of the classics that demonstrate the way in which Western medicine was introduced to Korea during the later years of the Joseon Dynasty. Last November, a groundbreaking ceremony was held for Ilsin Hall, an 11-story dormitory with one basement floor. With a total area of 14,680 square meters (4,441 pyeong) to accommodate up to 804 people, it is scheduled to be finished by February next year.
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The Graduate School of International Studies (GSIS) at Ajou University held an event entitled, “Share Your Country Report.” During the event, students taking the KOICA-Ajou Scholarship Program for Master's Degree gave presentations. Held on May 2 at Yulgok Hall, Prof. Kim Byoung-kwan, Dean of Ajou GSIS, Prof. Kim Su-duk from the Energy Systems Division, and Prof. Jung Jae-sung, Associate Professor from the Department of Electrical and Computer Engineering, as well as 20 foreign students from 17 countries attended. The participating students are in the KOICA-Ajou Scholarship Program for Master's Degree, which is part of KOICA’s leadership program for young and mid-level leaders of civil society in Korea’s partner countries. Using the academic knowledge gained during the scholarship program, the participants presented and shared the current status of energy and some pending issues in their nations.Graduate-level education, particularly in the areas of energy self-sufficiency, reinvention of the energy industry, renewable energy growth, climate change, energy education, etc., has been provided by Ajou GSIS. Ajou GSIS consists of five departments: International Business, International Trade, NGO Studies, International Development and Cooperation, and Energy Studies. The KOICA-Ajou Scholarship Program for Master's Degree was established towards achieving the UN Sustainable Development Goals (SDGs) by providing quality education, facilitating economic growth, preventing climate crisis, and forging partnerships.
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A team of researchers led by Prof. Prof. Choi Sang-dun (from the Departments of Biological Sciences and Molecular Science & Technology) at Ajou University, announced the results of its study on drugs that are effective in preventing COVID-19. Prof. Choi (pictured), Prof. Kim Moon-suk (from the Departments of Applied Chemistry & Biological Engineering and Molecular Science & Technology), and S&K Therapeutics studied a number of anti-COVID-19 drugs approved by the US Food & Drug Administration and found that Remdesivir and Ledipasvir have potential to inhibit SARS-CoV-2 replication. S&K Therapeutics is a drug developer for autoimmune diseases, viral diseases, etc., and was established by Prof. Choi. The research findings were published in Cells, a prestigious international journal, under the title, “Remdesivir and Ledipasvir among the FDA-Approved Antiviral Drugs Have Potential to Inhibit SARS-CoV-2 Replication,” in April. Coronaviruses are positive-strand RNA viruses with a relatively larger virus genome. A genome is all genetic material of an organism, consisting of DNA or RNA. The coronavirus genome RNA is encapsulated by the nucleocapsid protein and polyadenylated with the spike glycoprotein on the viral envelope. The currently-developed COVID-19 vaccines especially target the spike glycoprotein.The team is currently developing materials that fight RNA-dependent RNA polymerase (RdRp). RdRp has a low probability of transformation, being the perfect target to control the reproduction of RNA viruses. The team, in an effort to respond in a timely manner to the rapid spread of COVID-19 and a surge in infections and deaths, focused on anti-coronavirus drugs approved by the FDA. Ajou University and S&K Therapeutics conducted an in silico screening of hundreds of antiviral drugs approved by the FDA through virtual screening first. In silico screening uses screening tools to make predictions about the behavior of different compounds. The team selected the first batch of drugs based on a series of simulations on anti-virus drugs and RdRp, and then identified the antiviral activities of SARS-CoV-2 in Vero E6 cells. As a result, Remdesivir and Ledipasvir were proven to be most effective. Vero E6 cells, derived from African green monkey kidney in 1962, have been used extensively for studies on viral infections. Vaccines against avian influenza, Rotavirus, polio, rabies, and many other diseases are produced with the use of Vero E6 cells. Prof. Choi explained: “The most pressing issue is that new coronavirus variants are being detected regularly. Thus, it is imperative that we develop a drug that prevents the proliferation of coronavirus over the long term.” He also added: “It is significant that we were able to discover that some anti-COVID 19 drugs can be used alone or with other medications.” Description: An assessment of the activities of SARS-CoV-2 antiviral drugs(a-c) The right Y-axis indicates cell viability while the left Y-axis indicates the activities of SARS-CoV-2 antiviral drugs.
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A team of researchers led by Prof. Seo Hyung-tak, from the Department of Materials Science and Engineering at Ajou University, has succeeded in developing water-splitting photocatalyst electrodes for hydrogen production. This breakthrough is expected to be useful in producing low-cost, high-efficiency photoelectrodes for hydrogen production in a non-polluting way. Prof. Seo Hyung-tak (pictured right) announced successful development of high-efficiency solar, water-splitting photocatalyst electrodes. The achievement was published online and entitled, “Enhanced solar water-splitting of an ideally doped and work function tuned {002} oriented one-dimensional WO3 with nanoscale surface charge mapping insights,” in Applied Catalysis B: Environmental (Impact Factor 16.683), an international journal, on May 6. Prof. Shankara S. Kalanur (pictured left), from the Department of Materials Science and Engineering, participated in the joint research as first author.The range of possible applications of hydrogen as an alternative source of energy for automobiles, electricity generation, and other industries has been expanding rapidly as of late. In order to produce hydrogen for such purposes, including fuel cells, reforming is the most common process. During the process, an amount of CO2 equivalent to nine times more than the hydrogen production weight is emitted. In an effort to reduce CO2 emissions, there is a fast-growing body of research worldwide to develop a solar, water-splitting technology using electricity and solar energy. Through water-splitting with the use of electric charges while inserting solar energy into semiconductor photocatalyst electrodes, CO2-free hydrogen is made. However, this process is a relatively low-efficiency form of production compared to existing fuel cell reforming methods. Therefore, improving the light reactions of photocatalyst electrodes, a major component in the solar water-splitting system, while securing long-term response durability is critical. Recently, photocatalyst electrodes have proven to be somewhat limited in achieving technological advancement; thus, a growing number of studies are now underway to develop tandem photocatalytic electrodes. However, the tandem structure makes the process complex, lowering the reproducibility of electrodes while triggering chemical instability between different materials. Under these circumstances, the team focused on tungsten trioxide (WO3) electrodes, which have been widely studied, but faced obstacles in terms of efficiency. Instead of using the two-component layered structure, Prof. Seo found that one-dimensional tungsten trioxide nanorods could be aligned with {002}, with high photocatalytic activities when a small amount (1.14%) of Yttrium (Y) is doped. To find optimal doping concentrations and processing, dozens of impurity concentrations were tested. Of particular note is that Yttrium(Y)-doped tungsten trioxide (WO3) showed an increase of up to 200% in photoelectric current, while the conversion efficiency of photoelectric currents into hydrogen was nearly 95 percent. Through a minimum amount of doping, various physical and chemical changes, including resistance reduction, changes in electronic structure, and changes in surface work function, were identified.Dr. Seo explained: “It is significant that even with the doping of minimum impurities into low-cost tungsten trioxide, nanostructured photocatalyst electrodes were made using high-efficiency, single-material elements. This made for highly-efficient conversion during the hydrogen production process. Our team is committed to ensuring its safety for commercial uses in the future.” The study was sponsored by the Research Support Program for New Researchers with Advanced Overseas Accomplishments, the Basic Research Support Program from the Ministry of Science and ICT and the National Research Foundation of Korea.
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Ajou University and Panoptics, a provider specialized in optics, have succeeded in developing multifunctional electronic tattoos using silk protein nanofibers. The invention is expected to be a next-generation healthcare device, enabling diagnosis and drug injection after attachment to uneven skin tissues after drawing the needed circuits on the skin. Prof. Kim Sung-hwan, Departments of Physics and Energy Systems Research (pictured left), announced successful development of electronic tattoos, making it possible to draw circuits on silk protein nanofibers with carbon nanofiber ink.The achievement was entitled, “Multifunctional and Ultrathin Electronic Tattoo for On-Skin Diagnostic and Therapeutic Applications,” and appeared on the Frontispiece page of the online edition of Advanced Materials, a prestigious international journal focused on materials science, on May 6. The research was conducted in collaboration with Panoptics. Primarily authored by Prof. Narendar Gogurla, Research Assistant Professor (pictured right), it was also written together with Mr. Kim Jang-sun, CEO of Panoptics, and three other authors. There is a fast-growing body of research worldwide on materials for next-generation electronic healthcare devices, as such devices are capable of detecting and analyzing vital signs automatically. Electronic materials that can provide as much flexibility and elasticity as actual human skin are needed and countless researchers have dedicated themselves to developing materials and devices that combine flexible substrates with electrodes and electronics to read and analyze vital signs from the human body. These materials are known as “electronic skin” today. Finding the right interface between electronic skin and actual human skin that can attach flawlessly to uneven skin surfaces, such as finger pads, and have enhanced biocompatibility is vital. Ultrathin electronic circuits using biocompatible materials have been very challenging to develop. Prof. Kim’s team sought to resolve this problem with proteins—particularly silk proteins available from natural sources. Protein derived from silkworms is a skin-friendly and high-molecular biomaterial with superior physical and chemical properties. In the first step, the researchers make silk nanofiber paper, with a thickness equivalent to one-fiftieth of a strand of human hair, using electrospinning. Afterwards, they draw circuits on the silk nanofiber paper using carbon nanofiber ink and brush. Once the ink dries, the drawn circuits come out. If the circuits are placed on slightly moist skin, this creates the electronic tattoos.These electronic tattoos are ultrathin and can be put on finely-wrinkled skin surfaces like finger pads while maintaining stability in their electric properties during our everyday activities, besides taking showers. Electronic tattoos are simple to wipe off with wet wipes. Materials derived from carbon nanofibers are harmless as the silk nanofibers are injected into the middle of the electronic tattoos.Electronic tattoos, as they are attached to the skin, can be used as electrodes for electrocardiography or electromyography. They can also be used in thermal therapy or drug injections. Weak electric currents transmitted to the electronic tattoos or exposing the tattoos to sunlight creates a certain level of heat through carbon nanofibers. The fact that light can be used to create heat means that electronic tattoos can be heated remotely, implying a broad and diverse scope of application. Together with the ability to inject drugs into silk proteins, controlling the temperature of the tattoos remotely will increase the efficiency of drug injections. Prof. Kim explained: “Although there has been significant progress in research on harvesting energy from the human body, the problems related to human-machine interfacing have been relatively neglected. Using proteins, of which natural skin is composed, interfaces capable of bridging the material difference between the human body and electronic devices can be developed.”He also added: “Our project is significant in that our invention can help increase the application of biomaterials to a variety of electronic devices. We hope to see our product applied to a wide range of healthcare products and soft robotics in the future.”Sponsored by the National Research Foundation of Korea, the BK21 FOUR, the Gyeonggi-do Regional Research Center (GRRC), and the Korea Institute of Energy Technology Evaluation and Planning, the electronic tattoo technology was developed in partnership with Panoptics. Patent applications in Korea and technology transfer have been approved as well.A conceptual image of silk protein-based electronic tattoos Circuits drawn with carbon nanofiber ink on silkworm-derived silk paper can be attached to the skin like a tattoo.
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Ajou University was ranked in the 200s in the World University Rankings 2021 by Times Higher Education (THE). It is sixth among domestic universities that took part in the assessment.THE announced Impact Rankings 2021 for 1115 universities in 94 countries worldwide. Marking its third year this year, the assessment focuses on how well universities are fulfilling their social responsibilities.More specifically, it assesses efforts universities are making to achieve the United Nations Sustainable Development Goals (SDGs). In 2015, the UN identified 17 SDGs as a blueprint for humanity in five areas—people, earth, prosperity, peace and partnership—to achieve the ideas of sustainable development. Ajou University ranked in the 201 – 300 range in THE Impact Rankings 2021. This is a significant improvement over last year’s ranking, which put it in the 401-600 range. It is worth noting that it ranked 95th for the industry and innovative infrastructure sector (SDG9), managing to enter the global Top 100. The School’s close engagement with industry in the field of education and research has contributed to creation of a broad ecosystem for cooperation between industry and academia, which was the reason behind the recognition.The School also ranked in the 101-200 range in No Poverty (SDG1), Good Health and Well-being (SDG3), Quality Education (SDG4), Reducing Inequality (SDG10), and Sustainable Cities and Communities (SDG11). Notably, it ranked 2nd among domestic universities in the Good Health and Well-being (SDG3) sector. Ajou University’s multi-faceted education and social contribution programs for local communities utilizing the expertise of its members and efforts such as its Blue Ladder Program, a global training program for university students lacking opportunities to gain international experience due to social and economic difficulties, have led to its high performance in this field.In 2019, Ajou University established “Ajou Vision 4.0”, its mid- and long-term plan which enshrines the vision “Change the World with Connecting Minds.” As part of its action plan, the Ajou Sustainable Development Center was founded in 2020, to shape projects towards sustainable development and conduct research and campaigns to spread this culture within the campus.In THE Impact Rankings 2021, many universities in the UK and Australia that have been committed to achieving human well-being and protection of the global environment were among the highest-ranking schools. The University of Manchester (UK) ranked first place, followed by the University of Sydney, RMIT University, and La Trobe University (Australia). Among domestic universities, Yonsei University (30th) and Kyungpook National University (54th) managed to rank among the Top 100.
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Ajou University concluded an agreement with the Gyeonggi Provincial Office to cooperate in the field of autonomous driving. The agreement was made between Ajou University, Pohang University of Science and Technology (POSTECH), Kyung Hee University, Sungkyunkwan University, and the Advanced Institute of Convenience Technology (AICT).A signing ceremony was held at the Gyeonggi-do Office on April 30, 2021 and attended by Gyeonggi-do Governor Lee Jae-myung, Ajou University President Park Hyung-ju, POSTECH President Kim Moo-hwan, Kyung Hee University President Hahn Kyun-tae, Sungkyunkwan University President Shin Dong-ryeol, and AICT President Joo Young-chang. Director of Ajou University’s Autonomous Driving Mobility Center Song Bong-seob, who is also Professor of Mechanical Engineering at Ajou University, was also present.The Gyeonggi Provincial Office will provide big data produced in its Autonomous Driving Center to universities that are parties to the agreement. More specifically, it will provide autonomous driving testbeds, big data, and facilities for research in autonomous driving, including PCs and software, and build a Gyeonggi-University Big Data System to share research outcomes.Universities will run courses utilizing autonomous driving big data, and in collaboration with Gyeonggi Provincial Office, host a contest in autonomous driving big data and AI. They are also planning to set up special courses in big data and courses utilizing autonomous driving big data for executives and employees of Pangyo 2nd Techno Valley.At the ceremony, Ajou University President Park commented, “This agreement is particularly significant as the autonomous driving public data to be provided by the Gyeonggi-do Provincial Office includes not only vehicle-related data but also control data.” He continued, “We hope the trilateral cooperation between the Gyeonggi-do Provincial Office, universities, and AICT and the relocation of Gyeonggido Office to Gwanggyo will serve as an opportunity to realize the next generation of Zero Shuttle: Zero Shuttle 2.0.”He also added, “Ajou University is conducting research to connect transport, ITS (Intelligent Transport Systems), and autonomous driving by providing support to large-scale research groups and promoting collaboration among researchers,” and “The school will contribute significantly to joint research in the field of safety in autonomous driving.”The Gyeonggido Provincial Office founded the Gyeonggi Autonomous Driving Center with AICT in 2019 to construct an ecosystem for autonomous driving. The Center continues to support demonstrations by autonomous-related companies and research institutes. It incubates new autonomous driving businesses through its Business Center and runs an autonomous driving shuttle known as “Zero Shuttle.”
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Ajou University was designated for participation in the Ministry of Science and ICT’s Korea Initiative for Fostering University of Research & Innovation (KIURI) Project.The KIURI Project was initiated in 2020 to make researchers with PhDs in science and engineering independent and promote their entry into industry.The three-year project will run from May 2021 to October 2024 with a grant of KRW 1.5 billion per year. Post-doc researchers taking part in the project will receive research grants of around KRW 100 million per year, including labor costs, for up to three years.Accordingly, the school established the AI-Super Convergence KIURI Translational Research Group to Combat Disease (led by Kim Byung-gon, Professor of Brain Science and Neurology) to produce the human resources needed in basic biomedical science, translational research between clinical medicine fields, development of AI-based new drugs, and new bio materials to manage bodily functions.It will also build a cooperative network with 21 bio firms located in Southern Gyeonggi Province, including Huons, OliPass, Plarit, and Frombio, to develop technology needed by corporations and provide advice and dispatch researchers to offer practical support to companies seeking to increase their development capacities.The school will recruit 12 post-doc researchers in different majors from colleges of medicine, engineering, pharmacy, and natural sciences by the end of August 2021. It will develop programs for the newly recruited researchers and match them with faculty mentors and participating businesses in related fields to engage in industry-academia convergence research.Four university research groups have been assigned to the KIURI Project, including Seoul National University (bio-health), Sungkyunkwan University (energy and environment), Yonsei University (future car materials and parts), and Pohang University of Science and Technology (diagnostics and therapeutics), and 68 post-doc researchers have been carrying out research since 2020. This year, Ajou University and Inha University were designated, with each adding 12 new researchers. A total of 92 post-doc researchers will develop into leading personnel in industrial innovation.Ajou UniversityResearch group focused on new post-doc research personnelPartners:Middle market businesses/SMEs and bio ventures located in southern Gyeonggi ProvinceRegulations on support system and promotions:Guarantees stable position for new researchersAI-super convergence KIURI Translational Research Group to Combat DiseaseCreate startup ecosystemBuild industry-academia cooperation platform: Ajou Translational Research Center (ATRC)School of Medicine Address lack of human resourcesSupport strengthening of independent research capacity: Support capacity for industrial innovation in creative cutting-edge researchCollege of PharmacyDevelop competitiveness in bio technologyBuild infrastructure to enhance academic excellence: Support information and technology for academic research and educationCollege of Engineering, College of Natural SciencesAcquire competitiveness in Industry 4.0Artificial Intelligence (AI)Bio- and Pharma-hubs in southern Gyeonggi Province
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Ajou University was chosen to participate in the R&D Project to Nurture Human Resources in Regulatory Science, sponsored by the Ministry of Food and Drug Safety (MFDS), and will receive a subsidy of KRW 2.5 billion in total over the next five years.Regulatory science involves the development of new tools, criteria, and approaches to evaluate safety, validity, quality, and performance, among others, of food, drugs, medical devices and other regulated products. Recent growth in the bio-health industry has triggered a notable increase in demand for human resources in this field.The R&D Project to Nurture Human Resources in Regulatory Science is a new government-funded initiative in 2021 by the MFDS and aims at developing researchers and field experts to lead new industries in regulatory science through trilateral cooperation among industry, academia, and research institutes.The selection of universities to carry out the project occurred through a contest in which the MFDS designated projects in the three fields of pharmaceuticals, medical devices, and food. Ajou University was chosen for ‘Evaluation of Pharmaceutical Product Safety’ (managed by the College of Pharmacy; Chief of Research Lee Suk-hyang, Dean of the College of Pharmacy). As a result, the College of Pharmacy will begin a graduate program in Bio-health and Regulatory Science and invite 20 new students beginning the second semester of the 2021 academic year.The curriculum for Bio-health and Regulatory Science majors will focus on on-site, practical education, which will include Advanced Theory on Regulatory Science, International Council for Harmonization of Technical Requirements for Pharmaceuticals for Human Use (ICH) Guidelines, Clinical Pharmacology, Evidence-based Regulatory Decision-making, Big Data (RWD/RWE) Analysis and internships at bio-pharma companies.Graduates will be able to move on to numerous entities, including pharmaceutical research institutes and bio-health safety evaluation companies, or work as regulatory science legal experts in relation to certification of contract research organizations (CROs) or healthcare data analysts.Throughout this project, Ajou University plans to cultivate more than 120 core persons to lead the global regulatory science industry. To achieve this goal, the major will begin in the second semester this year and the Department of Bio-health Regulatory Science in 2022.
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President of Ajou University Park Hyung-ju has been appointed chair of the Ministry of Education’s National Curriculum Reform Research Committee. An appointment ceremony was held at the Government Complex Sejong Convention Center in Sejong City on April 20, 2021 and a letter of appointment presented by Deputy Prime Minister and Minister of Education Yoo Eun-hae to President Park and other commissioners.The National Curriculum Reform Research Committee was set up to revise the curriculum for elementary, middle and high schools to respond to a changing education environment, including rapid social changes from acceleration of AI and Industry 4.0 and a decline in the number of students, and prepare for a transition to education more geared towards the future.The Committee is comprised of experts from different fields, including teachers and members of academia and related institutions, and representatives of civil society and will engage in research and development of curricula, discuss issues and operational matters regarding the curricula, and devise a revised curriculum.The Committee will gather opinions from forums, online discussions, hearings, and deliberative meetings as it builds the revised curricula, and acquiring social consent on the revisions, making a public announcement during the fall of 2022.
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Ajou University Industry-Academic Cooperation Foundation signed a memorandum of understanding (MOU) with new drug development ventures Genesen and S&K Therapeutics. The three institutions will be working closely together to commercialize treatment for autoimmune and inflammatory diseases.A signing ceremony was held at Yulgok Hall on April 5, 2021 and attended by Industry-Academic Cooperation Foundation Director and Head of LINC+ Project Group Professor Kwon Yong-jin, Genesen CEO Lee Sung-ho, and S&K Therapeutics CEO Choi Sang-dun, who is also a professor in the Departments of Biological Sciences and Molecular Science and Technology at Ajou University. Genesen is a venture developing new peptide drugs using molecular modeling. In 2018, it signed a technology transfer agreement, worth KRW 4 billion, for peptide-based autoimmune disease treatment candidate material developed by the research team led by Professor Choi.This latest agreement will enable Genesen to receive the technology of a follow-up peptide candidate material developed by the Ajou University research team and expand R&D pipelines. The follow-up technology transfer is valued at around KRW 1 billion.S&K Therapeutics, founded in 2020 by Professor Choi, who led the R&D on this technology, was also party to the agreement. It specializes in the development of small molecule therapies for inflammatory diseases.With the agreement, Ajou University Industry-Academic Cooperation Foundation will support the commercialization of peptide drugs for autoimmune disease with Genesen and engage in strategic cooperation with S&K Therapeutics for commercialization of chemical compound therapy for inflammatory diseases. The two companies agreed to cooperate towards mutual development going forward.
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Ajou University’s New Industry Convergence Technology R&D Center signed a trilateral agreement with the Korea Institute of Human Resources Development in Science and Technology (KIRD) and the University of Sussex Science Policy Research Unit (SPRU).The signing ceremony was conducted in a contactless environment. The agreement will enable the three institutions to work together in many fields of research and education, including construction of a science and technology policy network, development of human resources in science and technology in Korea, and sharing of Europe’s policy model in developing talent in science and technology.To this end, the three parties will conduct joint research on science and technology policy, jointly plan and operate education programs, cooperate in exchange student and training programs, exchange personnel in science and technology policy and arrange visits, and share information on education and research in science and technology policy.Founded in 2015, the New Industry Convergence Technology R&D Center works with businesses and the government in carrying out joint industry-academia research projects and cultivation of future human resources for the promotion of research in new industry convergence technology, such as smart grids, smart factories, and smart fintech.Center Director Lee Joo-yeon stated, “We hope the global cooperation in education and research on science and technology policy will cultivate world-leading professionals in this field and promote practical research.”
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