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A KAIST graduate named one of seven Microsoft Research Faculty Fellows for 2014
Yong-Yeol Ahn, a professor of the School of Informatics and Computing, Indiana University Bloomington (IUB), has been selected as one of the seven winners for the Microsoft Research Faculty Fellowship 2014. He received his Ph.D. in 2008 from KAIST. Each year, since 2005, Microsoft Research has recognized innovative, promising new faculty members in computer science from a number of research institutions to join the ranks of Microsoft Research Faculty Fellows. The winners are awarded $200,000 grants to further advance their research. For details, below please see a press release issued by IUB on June 12, 2014. IU Bloomington Newsroom Press Release, June 12, 2014 IU informaticist Y.Y. Ahn named one of seven Microsoft Research Faculty Fellows http://news.indiana.edu/releases/iu/2014/06/yy-ahn-microsoft-research-faculty-fellow.shtml
2014.06.15
View 7625
KAIST Made Great Improvements of Nanogenerator Power Efficiency
The energy efficiency of a piezoelectric nanogenerator developed by KAIST has increased by almost 40 times, one step closer toward the commercialization of flexible energy harvesters that can supply power infinitely to wearable, implantable electronic devices. NANOGENERATORS are innovative self-powered energy harvesters that convert kinetic energy created from vibrational and mechanical sources into electrical power, removing the need of external circuits or batteries for electronic devices. This innovation is vital in realizing sustainable energy generation in isolated, inaccessible, or indoor environments and even in the human body. Nanogenerators, a flexible and lightweight energy harvester on a plastic substrate, can scavenge energy from the extremely tiny movements of natural resources and human body such as wind, water flow, heartbeats, and diaphragm and respiration activities to generate electrical signals. The generators are not only self-powered, flexible devices but also can provide permanent power sources to implantable biomedical devices, including cardiac pacemakers and deep brain stimulators. However, poor energy efficiency and a complex fabrication process have posed challenges to the commercialization of nanogenerators. Keon Jae Lee, Associate Professor of Materials Science and Engineering at KAIST, and his colleagues have recently proposed a solution by developing a robust technique to transfer a high-quality piezoelectric thin film from bulk sapphire substrates to plastic substrates using laser lift-off (LLO). Applying the inorganic-based laser lift-off (LLO) process, the research team produced a large-area PZT thin film nanogenerators on flexible substrates (2cm x 2cm). “We were able to convert a high-output performance of ~250 V from the slight mechanical deformation of a single thin plastic substrate. Such output power is just enough to turn on 100 LED lights,” Keon Jae Lee explained. The self-powered nanogenerators can also work with finger and foot motions. For example, under the irregular and slight bending motions of a human finger, the measured current signals had a high electric power of ~8.7 μA. In addition, the piezoelectric nanogenerator has world-record power conversion efficiency, almost 40 times higher than previously reported similar research results, solving the drawbacks related to the fabrication complexity and low energy efficiency. Lee further commented, “Building on this concept, it is highly expected that tiny mechanical motions, including human body movements of muscle contraction and relaxation, can be readily converted into electrical energy and, furthermore, acted as eternal power sources.” The research team is currently studying a method to build three-dimensional stacking of flexible piezoelectric thin films to enhance output power, as well as conducting a clinical experiment with a flexible nanogenerator. This research result, entitled “Highly-efficient, Flexible Piezoelectric PZT Thin Film Nanogenerator on Plastic Substrates,” was published as the cover article of the April issue of Advanced Materials. (http://onlinelibrary.wiley.com/doi/10.1002/adma.201305659/abstract) YouTube Link: http://www.youtube.com/watch?v=G_Fny7Xb9ig Over 100 LEDs operated by self-powered flexible piezoelectric thin film nanogenerator Flexible PZT thin film nanogenerator using inorganic-based laser lift-off process Photograph of large-area PZT thin film nanogenerator (3.5cm × 3.5cm) on a curved glass tube and 105 commercial LEDs operated by self-powered flexible piezoelectric energy harvester
2014.05.19
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Professor Jae-Hyung Lee appointed as AIChE fellow
Professor Jae-Hyung Lee from the Department of Chemical and Bimolecular Engineering at KAIST was appointed as a fellow in the American Institute of Chemical Engineers (AIChE). Established in 1908, AIChE is the largest association of chemical engineers worldwide, which now boasts more than 40,000 members from 90 countries. Following Distinguished Professor Sang Yup Lee from the same department at KAIST, Professor Jae-Hyung Lee is the second Korean appointed as a fellow by the organization. He has been acknowledged for his innovative research on the improvement of model predictive control of industrial processes. Professor Lee is the director of the Saudi Armaco-KAIST CO2 Management Center at KAIST, a fellow of the Institute of Electrical and Electronics Engineers (IEEE) and the International Federation of Automatic Control (IFAC), and a member of the Korean Academy of Science and Technology. He received the Young Investigator Award from the National Science Foundation (NSF) in 1994 and the Computing in Chemical Engineering Award from AIChE in 2013.
2013.11.05
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Distinguished Professor Lee Sang Yeop Appointed as Fellow of the American Institute of Chemical Engineers
Professor Lee Sang Yeop (Dean of the Department of Biological Sciences) has become the first Korea Scientist to be appointed as the Fellow of the American Institute of Chemical Engineers. The American Institute of Chemical Engineers was founded in 1908 and boasts a 100 year history. It is composed of 43,000 members over 90 countries and is the largest international Academic Institute in the field of Chemical Engineering. The Institute appoints Fellows after a rigorous procedure of recommendation and evaluation and Professor Lee is the first Korean to become a Fellow. Professor Lee’s expertise is the field of Metabolic Engineering and successfully applied the system design method and optimization strategy of chemical engineering to biological systems thereby developing numerous core technologies for the biology based chemical industries. Professor Lee is the founder of the System Metabolic Engineering and enabled the medical application of microorganisms by manipulating the metabolic pathways on a systems level in addition to making great progress in synthesizing various oil originated chemical materials using biology based, environmentally friends methods. Professor Lee received the Marvin J. Johnson Award, Charles Thom Award, and has been appointed by the first Chairman of the Biotech Global Agenda Counsel of the World Economic Forum.
2012.09.22
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KAIST Confers Honorary Degree to CMU President Cohon
By DongJae Lee The KAIST Herald Staff Reporter On February 24, Dr. Jared L. Cohon, President of Carnegie Mellon University (CMU), visited KAIST to receive an honorary degree in science and technology and gave a lecture to the university’s students. Dr. Cohon is the eighth president of CMU and has held numerous other public and university positions. During his presidency, CMU has expanded globally and now takes part in joint programs around the world, including those with universities in Korea, Australia, India and Qatar. KAIST and CMU have been collaborating since 2005 in research projects, student and faculty exchange and dual degree programs. Before the 2012 Commencement Ceremony, Dr. Cohon met with The KAIST Herald and other news agencies for an interview. The interview started with Dr. Cohon giving a brief introduction of CMU. Like KAIST, CMU has a small but special composition and is dedicated to science and technology as well as business and the fine arts. CMU, founded in 1900, is also relatively young by US standards but has nonetheless grown into a world-class university. The power behind this rapid growth can be expressed by four key values: innovation and change, problem-solving, interdisciplinary cooperation, and hard work. The slogan “My heart is in the work” clearly expresses the values of CMU. One interesting aspect of CMU is its fine arts and business fields. While CMU is dedicated to science and technology, it also has many respected alumni in the aforementioned fields including Andy Warhol, a leading figure in pop art, and Randy Pausch, the author of The Last Lecture. CMU alumni have together won 6 Academy Awards, 22 Emmy Awards, over 100 Tony Awards and 20 Nobel Prizes. Regarding CMU’s joint projects with KAIST, as well as student and faculty exchanges, Dr. Cohon mentioned joint Ph.D. programs in Civil and Environmental Engineering and Mechanical Engineering and a joint Master’s program in Software Engineering. Currently, the Civil and Environmental Engineering joint Ph.D. program has one participant and the Software Technology Institute joint Master of Software Engineering program has 6 participants. Dr. Cohon mentioned that receiving an honorary degree in KAIST is a tremendous honor and that he is grateful to be recognized by such a wonderful university like KAIST.
2012.03.23
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Professor Lee Jae Kyu : Appointed Fellow at Association of Information Systems
Professor Lee Jae Kyu of the Graduate School of Information Media Management was made Fellow of the Association of Information Systems. Professor Less was the Chief Editor of Electronic Commerce Research and Applications, Chairman of Asia Pacific Information System Symposium, and Chairman of Korea Academy of Management Information, in addition to Chairman of the Academy of Korea Intelligence Information System. The ‘Electronic Commerce’ co-written by Professor Lee is being used as primary MBA textbook in many universities around the world. Homepage : http://www.business.kaist.ac.kr/faculty/jklee/
2012.01.31
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New Scientist: Wind power harnesses the energy of galloping, June 2, 2011
Researchers from the Civil and Environmental Engineering Department, KAIST, released their research results in Smart Materials and Structures on ways to “harness strange properties of turbulent airs.” They built a prototype that produces energy using a specific type of unstable airflow called “wake galloping.” New Scientist wrote an article about the paper, which appeared on June 2, 2011. For the article, please follow the link below. http://www.newscientist.com/article/mg21028145.700-wind-power-harnesses-the-energy-of-galloping.html?full=true&print=true
2011.06.04
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Research Conducted on the Development Policy of Medical Researchers in United States
The topic dealt in the paper was “The Vietnam War and Medical Research: Untold Legacy of the U.S. Doctor Draft and the NIH ‘Yellow Berets’” and basically deals how a Doctor Draft made a positive impact on improving the basic research of clinical medicine. Professor Park received his Doctorate at Johns Hopkins University and came to KAIST in 2007. Summary of Dissertation From the start of the Korean War in 1950 to the end of the Vietnam War in 1973 a large number of medical school graduates were drafted to the army. Of those drafted, 100 personnel were chosen annually to focus on researching in the National Institute of Health who developed into leaders of the field. For example, those who worked as a researcher at the National Institute instead of their armed services were 1.5 times more likely to become a tenured professor, 2 times more likely to be promoted to Dean of the department, and 3 times more likely to be the Dean. In addition, 9 out of 50 Nobel Prize winners in fields of natural sciences between 1985 and 2007 were from the same pool of researchers, and 10 out of 76 recipients of National Medal of Science were also from the same pool of researchers. They were named the ‘Yellow Berets’ like the special forces ‘Green Berets’ and made great contribution to the field in implementing and executing the bench to beside culture that involves development in laboratories to clinical testing. Professor Park maintains that there has to be improvements made in current policies to encourage research work in medical graduate schools.
2011.05.31
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Artificial Spore Production Technology Developed
The core technology needed in the development of ‘biosensors’ so crucial in diagnosing illnesses or pathogens was developed by Korean research team. KAIST’s Professor Choi In Seung of the department of Chemistry developed the technology that allows for the production of Artificial Spore by selectively coating a live cell. In the field of engineering the problem in developing the next generation bio sensor, the cell based sensor, was that it was difficult to keep a cell alive without division for a long time. Once a cell is taken out of the body, it will either divide or die easily. Professor Choi’s research team mimicked the spore, which has the capability to survive harsh conditions without division, and chemically coated a live cell and artificially created a cell similar to that of a spore. The physical and biological stabilities of the cell increased by coating an artificial shell over the yeast cell. The shell is composed with a protein similar to that of the protein that gives mussels its stickiness. In addition by controlling the thickness of the shell, the division rate of the yeast can be controlled. Professor Choi commented that this technology will serve as the basis for the single cell based biosensor. The research was conducted together with Professor Lee Hae Shin of KAIST department of Chemistry and Professor Jeong Taek Dong of Seoul National University’s department of Chemistry and was published as the cover paper of ‘Journal of the American Chemical Society’.
2011.04.01
View 11945
Professor Bae of Industrial Design Wins Good Design Award.
Professor Bae Sang Min’s research team of the Industrial Design Department received a G-Mark on the Product Design Section from the Good Design Awards 2010 organized by the Japan Industrial Design Promotion Organization through the exhibition of a Green Sharing Project, Heartea. Heartea is a tumbler that allows the user to easily know the temperature of the liquid contained inside. Heartea is a name that combines Heart and Tea to refer to a tumbler that contains heart-warming tea. Heartea was designed and produced by Professor Bae’s research team and was funded by GS Caltex. World Vision selected charity targets and oversaw distribution, and all of the sales income (about 200 million won) was donated as a scholarship to teenagers with financial difficulties. The project has begun in 2006, and its accumulative sales are 1.7 billion won. Twenty million won is donated to 147 teenagers every year as scholarship, and through annual sharing camp, social leaders mentor teenagers to help them achieve their dreams. The Good Design Award organized annually by Japan Industrial Design Promotion Organization has a fifty year tradition and is one of the world’s top four design contests with 6,000 submissions from 50 different countries participated. Professor Bae’s team has won three of the top four design contests including the German Red Dot Product Award and the American IDEA Product Award. Along with Heartea, both of foldable MP3 in 2008 and natural humidifier Lovepot in 2009 won an award from these four contests. “Through continuous research, I hope to create the world’s best philanthropy design research center to help Third World countries and the neglected. I want to participate in creating a better world through design,” said Professor Bae.
2010.11.05
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Yoon-Gyeong Shim donates two billion won's worth of stocks to KAIST.
“We hope KAIST will succeed my late husband’s will.” A 47-year-old widow donated two billion won’s worth of stock to KAIST in respect to her late husband’s will for the scientific development and training of scientifically talented people of Korea. On the 27 of September, KAIST announced that the late CEO of Seoul Alloy Metal’s widow, Yoon-Gyeong Shim, donated her and her children’s inheritance of two billion won’s worth of stocks to KAIST through an agent. While wondering how to spend their inherited two billion won, the family found certificates and contracts of donation in the late CEO Geyong-Dae Kim’s possession. The late lamented Mr. Kim had been donating a certain amount of money monthly for those in need, including undernourished children. Shim decided to donate to Korea’s IT-leading KAIST to succeed her late husband’s will, the husband who lived a life of sharing and dedicated his whole life in the IT department. Shim’s two children, Hyunjae (19 years old) and Youngjae (17 years old) happily participated in this decision. The company represented by Kim, Seoul Alloy Metals, is a national company that produces basic conjugates used in electric and electronic machinery, with founding technology in the environmental-friendly smokeless lead-free solder division. “I believe my late husband, who passed away before his time, would be glad with our family’s decision,” said Shim. “We may be living in a faraway country called New Zealand but my children and I are proud Koreans and we are very glad to give a small hand to Korea’s proud KAIST. We hope KAIST can succeed my late husband’s passion and will for the development of scientific technology. We wish it can be used not only for the development of KAIST, but for the development of Korea.” “KAIST is grateful of Shim’s decision to donate to KAIST,” said President Suh. “To follow the lofty will of the decedent, KAIST will try our best to train the best scientifically talented people and become the best university in the world.” Since appointment of President Suh at KAIST, KAIST has put an effort to spread a donating culture. As a result, KAIST donators have expanded omnidirectionally, including professors, staff, students, alumni, parents of students, and the general public. The number of donations was 1,004 in 2006, 2,139 in 2007, 3,066 in 2008, and 3,304 in 2009.
2010.09.29
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Nanowire crystal transformation method was newly developed by a KAIST research team.
Figure 1 Schematic illustration of NW crystal transformation process. FeSi is converted to Fe3Si by high-temperature thermal annealing in diluted O2 condition and subsequent wet etching by 5% HF. Figure 2 Low-resolution TEM images of FeSi; Fe3Si@SiO2 core—shell; Fe3Si NW after shell-etching; and Scale bars are 20 nm Professor Bongsoo Kim of the Department of Chemistry, KAIST, and his research team succeeded to fabricate Heusler alloy Fe3Si nanowires by a diffusion-driven crystal structure transformation method from paramagnetic FeSi nanowires. This methodology is also applied to Co2Si nanowires in order to obtain metal-rich nanowires (Co) as another evidence of the structural transformation process. The newly developed nanowire crystal transformation method, Professor Kim said, would be valuable as a general method to fabricate metal-rich silicide nanowires that are otherwise difficult to synthesize. Metal silicide nanowires are potentially useful in a wide array of fields including nao-optics, information technology, biosensors, and medicine. Chemical synthesis of these nanowires, however, is challenging due to the complex phase behavior of silicides. The metal silicide nanowires are grown on a silicon substrate covered with a thin layer of silicon oxide via a simple chemical vapor deposition (CVD) process using single or multiple source precursors. Alternatively, the nanowires can be grown on the thin silicon oxide film via a chemical vapor transport (CVT) process using solid metal silicide precursors. The CVT-based method has been highly effective for the syntheses of metal silicide NWs, but changing the composition of metal silicide NWs in a wider range, especially achieving a composition of a metal to silicon, has been quite difficult. Thus, developing efficient and reliable synthetic methods to adjust flexibly the elemental compositions in metal silicide NWs can be valuable for the fabrication of practical spintronic and neonelectronic devices. Professor Kim expliained, “The key concept underlying this work is metal-enrichment of metal silicide NWs by thermal diffusion. This conversion method could prove highly valuable, since novel metal-rich silicide NWs that are difficult to synthesize but possess interesting physical properties can be fabricated from other metal silicide NWs.” The research result was published in Nanao Letters, a leading peer-reviewed journal, and posted online in early August 2010.
2010.08.25
View 10462
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