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Spillover Phenomenon Identified Using Model Catalyst System
Researchers at KAIST have identified spillover phenomenon, which has remained controversial since its discovery in the early 1960s. KAIST Department of Chemical and Biomolecular Engineering’s Professor Min-Gi Choi and his team has explained the "spillover phenomenon," using their own model catalyst system where platinum is selectively located within the amorphous aluminosilicate. The research results were published on the 25th February online edition of Nature Communications. Spillover refers to a phenomenon that occurs when hydrogen atoms that have been activated on the surface of metals, such as platinum, move to the surface of the catalyst. It was predicted that this phenomenon can be used to design a catalyst with high activity and stability, and thus has been actively studied over the last 50 years. However, many cases of the known catalysts involved competing reactions on the exposed metal surface, which made it impossible to directly identify the presence and formation mechanism of spillover. The catalysts developed by the researchers at KAIST used platinum nanoparticles covered with aluminosilicate. This only allowed the hydrogen molecules to pass through and has effectively blocked the competing reactions, enabling the research team to study the spillover phenomenon. Through various catalyst structure and reactivity analysis, as well as computer modeling, the team has discovered that Brönsted acid sites present on the aluminosilicate plays a crucial role in spillover phenomenon. In addition, the spillover-based hydrogenation catalyst proposed by the research team showed very high hydrogenation and dehydrogenation activity. The ability of the catalyst to significantly inhibit unwanted hydrogenolysis reaction during the petrochemical processes also suggested a large industrial potential. Professor Min-Gi Choi said, “This particular catalyst, which can trigger the reaction only by spillover phenomenon, can be properly designed to exceed the capacity of the conventional metal catalysts. The future goal is to make a catalyst with much higher activity and selectivity.” The research was conducted through funds subsidized by SK Innovation and Ministry of Science, ICT and Future Planning. The senior research fellow of SK Innovation Seung-Hun Oh said, “SK Innovation will continue to develop a new commercial catalyst based on the technology from this research.” Juh-Wan Lim and Hye-Yeong Shin led the research as joint first authors under supervision of Professor Min-Gi Choi and computer modeling works were conducted by KAIST EEWS (environment, energy, water, and sustainability) graduate school’s Professor Hyeong-Jun Kim.
2014.03.03
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Quacquarelli Symonds (QS) World University Rankings by Subject 2014
The QS World University Rankings are annual university rankings published by Quacquarelli Symonds (QS) which provides the overall rankings of top global universities as well as the rankings for individual subjects. The 2014 QS World University Rankings by Subject is a comprehensive guide to the world’s best universities in 30 popular subjects of 5 academic disciplines: arts & humanities, engineering & technology, life sciences & medicine, natural sciences, and social sciences. According to the 2014 subject rankings, released on February 26, KAIST made the list of top 50 universities in 9 subjects: physics & astronomy; materials sciences; chemistry; chemical engineering; mechanical, aeronautical & manufacturing engineering; electrical & electronic engineering; civil & structural engineering; computer science & information systems; and biological sciences. Among them, KAIST was ranked number one in Korea for 5 subjects: materials sciences (16th); mechanical, aeronautical & manufacturing engineering (21st); civil & structural engineering (32nd); computer science & information systems (36th), and biological sciences (43rd). For basic sciences, KAIST has made good progress as well. For example, in mathematics, KAIST took first place in Korea and was ranked in the 51st-100th of the world’s top universities. Another notable result was that its business college in Seoul campus, a relatively new addition to KAIST, made the rankings list of 51st-100th in accounting & finance. The 2014 QS subject rankings used the following criteria for its evaluation of university performance: a survey of academic and employer reputation, citations per paper, inclusion of specialists, and the h-index, known as the Hirsch index or Hirsch number, which was suggested by Jorge E. Hirsch, a physicist at the University of California in San Diego, as a tool for determining theoretical physicists’ relative quality. Today, the h-index is used to measure both the productivity and impact of the published work of a scientist or scholar.
2014.02.28
View 10078
Phys.org: Researchers develop non-iridescent, structural, full-spectrum pigments for reflective displays
The latest research work by Professor Shin-Hyun Kim of Chemical and Biomolecular Engineering at KAIST on the “microcapsulation og photonic crystals using osmotic pressure” has been published by Phys.org, a leading web-based science, research and technology news. For the articles, please click the link below:February 20, 2014Researchers develop non-iridescent, structural, full-spectrum pigments for reflective displayshttp://phys.org/news/2014-02-non-iridescent-full-spectrum-pigments.html
2014.02.21
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2014 Davos Forum: KAIST-EPFL Connection
The Korean-American Science and Technology News (KASTN), a biweekly global electronic newsletter carrying news and analyses in science and technology, as well as social, economic, and cultural issues related to the general interest of the Korean-American professional community, published an article on the partnership agreement made by KAIST and the Ecole Polytechnique Federale Lausanne (EPFL) during the 2014 World Economic Forum held at Davos, Switzerland, from January 22nd to 25th. For the article, please click the link below: KASTN Issue 14-05, February 26, 2014 http://www.phy.duke.edu/~myhan/b_14-05.pdf
2014.02.04
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The Huffington Post, January 30th, 2014: The Top Young Universities in the World, According to QS Rankings
KAIST was ranked third among the “QS Top 50 Under 50,” a ranking of the world’s top 50 universities established within the last 50 years, which was based on the highest performing young universities in the 2013/14 QS World University Rankings. For details, please read the news article below: The Huffington Post, January 30th, 2014: The Top Young Universities in the World, According to QS Rankings: http://www.huffingtonpost.co.uk/2014/01/30/top-young-universities-in-world-qs-rankings_n_4693918.html
2014.02.03
View 5818
Hyun-Sik Kim, KAIST doctoral student, receives Predoctoral Achievement Award from IEEE Solid-State Circuits Society
Hyun-Sik Kim, a Ph.D. student from the Department of Electrical Engineering, is scheduled to receive the “Predoctoral Achievement Award” from the Institute of Electrical and Electronics Engineers (IEEE) Solid-State Circuit Society (SSCS) at its 2014 annual conference to be held on February 9-13 in San Francisco, USA. Kim, the first Korean student receiving the award, will also be given a 1,000 USD honorarium. Established in 1983, the Predoctoral Achievement Award has been given to a small number of promising graduate students, which is made on the basis of academic record and potential, quality of publications, and a graduate study program well matched to the charter of SSCS. Among the previous recipients were Professor Bernhard Boser of the University of California in Berkeley and Professor Michael Flynn of Michigan University. Kim published 15 research papers in international journals and conferences, applied for 35 domestic and international patents, and received the best paper award in human technology from Samsun Electronics for three consecutive years. Professor Kyu-Hyung Cho of Electrical Engineering is Kim's principal advisor.
2014.01.27
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Materials Developed for Sodium Rechargeable Battery by EEWS
The research group of Professor William Goddard III, You-Sung Jung, and Jang-Wook Choi from the Graduate School of Energy, Environment, Water, and Sustainability (EEWS) at KAIST has developed a new sodium-ion rechargeable battery which operates at a high voltage, can be charged, and stably discharges over 10,000 cycles. The research results were published in the online version of the Proceedings of the National Academy of Sciences of the United States of America (PNAS) on December 30, 2013. Since the material costs of sodium rechargeable batteries is 30 to 40 times lower than lithium batteries, it has received attention as an energy saving tool for smart grids and as the next generation of lithium rechargeable batteries. Until now, sodium-ion rechargeable batteries have had issues with stability when charging and discharging. The research group developed a vanadium-based electrode to solve these problems. The group said follow-up research will be continued to develop advanced technology on sodium rechargeable batteries as it is still currently in the beginning stages. The research team: From left to right is Professors William Goddard, You-Sung Jung, and Jang-Wook Choi
2014.01.13
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Mechanism in regulation of cancer-related key enzyme, ATM, for DNA damage and repair revealed
Professor Kwang-Wook Choi A research team led by Professor Kwang-Wook Choi and Dr. Seong-Tae Hong from the Department of Biological Sciences at KAIST has successfully investigated the operational mechanism of the protein Ataxia Telangiectasia Mutated (ATM), an essential protein to the function of a crucial key enzyme that repairs the damaged DNA which stores biometric information. The results were published on December 19th Nature Communications online edition. All organisms, including humans, constantly strive to protect the information within their DNA from damages posed by a number of factors, such as carbonized materials in our daily food intake, radioactive materials such as radon emitting from the cement of buildings or ultraviolet of the sunlight, which could be a trigger for cancer. In order to keep the DNA information safe, the organisms are always carrying out complex and sophisticated DNA repair work, which involves the crucial DNA damage repair protein ATM. Consequently, a faulty ATM leads to higher risks of cancer. Until now, academia predicted that the Translationally Controlled Tumor Protein (TCTP) will play an important role in regulating the function of ATM. However, since most of main research regarding TCTP has only been conducted in cultured cells, it was unable to identify exactly what mechanisms TCTP employs to control ATM. The KAIST research team identified that TCTP can combine with ATM or increase the enzymatic activity of ATM. In addition, Drosophilia, one of the most widely used model organisms for molecular genetics, has been used to identify that TCTP and ATM play a very important role in repairing the DNA damaged by radiation. This information has allowed the researchers to establish TCTP’s essential function in maintaining the DNA information in cell cultures and even in higher organisms, and to provide specific and important clues to the regulation of ATM by TCTP. Professor Kwang-Wook Choi said, “Our research is a good example that basic research using Drosophilia can make important contributions to understanding the process of diseases, such as cancer, and to developing adequate treatment.” The research has been funded by the Ministry of Science, ICT and Future Planning, Republic of Korea, and the National Research Foundation of Korea. Figure 1. When the amount of TCTP protein is reduced, cells of the Drosophila's eye are abnormally deformed by radiation. Scale bars = 200mm Figure 2. When the amount of TCTP protein is reduced, the chromosomes of Drosophilia are easily broken by radiation. Scale bars = 10 mm. Figure 3. When gene expressions of TCTP and ATM are reduced, large defects occur in the normal development of the eye. (Left: normal Drosophilia's eye, right: development-deficient eye) Figure 4. ATM marks the position of the broken DNA, with TCTP helping to facilitate this reaction. DNA (blue line) within the cell nucleus is coiled around the histone protein (green cylinder). When DNA is broken, ATM protein attaches a phosphate group (P). Multiple DNA repair protein recognizes the phosphate as a signal that requires repair and gathers at the site.
2014.01.07
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Professor Dong-Yol Yang received an award for scholar of the year 2013 from the Korean mechanical engineering community
Professor Dong-Yol Yang from the Department of Mechanical Engineering at KAIST was selected as “the scholar of the year 2013” at an annual event held by the Korean Federation of Mechanical Engineering Societies, the Korea Association of Machinery Industry, and other mechanical engineering research institutes in Korea. The event, the Day of the Machines, is the nation’s biggest gathering for engineers, scholars, and researchers in mechanical engineering, at which winners of the awards for the person of the year in academia, business, and engineering are announced. Professor Yang was chosen for his lifetime achievement as a scholar in the field of three-dimensional shape precision processing by developing an innovative processing technology that contributes to the advancement of mechanical engineering and industry. He also introduced the three-dimensional fast processing to Korea from 1990 and developed world-class subminiature fast processing, the first of its kind in Korea.In 2013, Professor Yang identified geometric deformation elements in mechanical engineering for the first time in the world, an essential component for nano mobile system and received the best conference paper award at the 3M-Nano International Conference.
2014.01.05
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Professor Kwy-Ro Lee Appointed Distinguished Member of IEEE
Professor Kwy-Ro Lee from the Department of Electrical Engineering at KAIST was selected as a distinguished member of the Institute of Electrical and Electronics Engineers (IEEE) where his contribution to research development of the technological management of semiconductors was recognized. Professor Lee earned his BS from Seoul National University and MS & Ph.D. from the University of Minnesota. He has been working as a professor in the Department of Electrical Engineering since 1986. He has also served as the president of the LG Electronics Research Center in 2005 and the president of the Nanoscience and Technology Center at KAIST in 2010. IEEE is the largest professional association for the advancement of technology in electrical, electronics, computing and communication with 400,000 members in 160 countries. Only 0.1 percent of members with over ten years of service can be selected as distinguished members based on their research devotion for society.
2014.01.02
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Professor Jung-Ro Yoon Appointed President of Korean Sociological Association
The Korean Sociological Association (KSA) announced that Professor Jung-Ro Yoon from the Department of Humanities and Social Science at KAIST has been appointed as the president of KSA. KSA has been contributing in the development of sociology and academic exchange among its members as the largest academic association in the field of social science in Korea since 1957. Professor Yoon said, “KSA is trying to contribute to finding new solutions for economic crises, inequality, environmental pollution, and other uncertainties that we have been facing. We will attempt to provide vision and hope for the future of the society with cooperation from both students and researchers under the motto ‘Sociology for Research, Play and Communication.’” Dr. Yoon has been in the Department of Humanities and Social Science at KAIST since 1991 after earning her MA & Ph.D. degree from Harvard University. She introduced Science, Technology and Society (STS) into Korea and served as the leader of the Ethical, Legal and Social Implications (ELSI) Project for the Utilization of Human Genome Information.
2014.01.02
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Professor Suk-Joo Na Invited to Finland as Distinguished Professor
Professor Suk-Joo Na, from the Department of Mechanical Engineering at KAIST, has been invited as a distinguished professor for an international research project in Finland. As a leading scientist in the field of arc welding and numerical analysis of the laser welding process, Na will assemble a research group for the interpretation of the welding processes for three years at the VVT Technical Research Centre of Finland beginning in January of 2014. The project was established to improve the research level and national competitiveness of Finland by inviting leading international scientists to the National Technology Agency of Finland and Academy of Finland since 2006 and over one hundred projects have been carried out thus far. A total of 17 billion won will be invested for the eleven new projects selected this year. Professor Na said, “The fusion welding field contains important technology for improving the competitiveness of mechanical products of Finland. Improvements in productivity, the life cycles of products, and energy saving through interpretation technology for the numerical analysis of the welding process will make a huge impact on the national economy of Finland.”
2013.12.24
View 8450
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