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LG's Woo Jong Lee Named the Alumnus of College of Engineering
The College of Engineering at KAIST selected Woo Jong Lee, President and Head of the VC Business Division at LG Electronics Inc., as the 2017 Alumnus of the Year for the College of Engineering. ‘Alumnus of the Year’ is an award given to a distinguished alumnus who has contributed to the development of industrial technology or made outstanding academic achievements. Lee graduated from KAIST with the master’s degrees in Industrial Engineering. He also worked at Daewoo Motors as an executive member in the development division. He has been a crucial human resource for LG since he joined the company in 2000. While leading the VC business Division, which was established in 2013, Lee is recognized as a creative engineer as well as a leader in the automotive industry. Focusing on autonomous driving and eco-friendliness, he has been engaged in the production of major projects from the beginning to the end. Since 2014, outstanding alumni whose achievements have represented KAIST at the highest level have received the award. The first recipient was Tae-Kyung Yoo, an executive at Lumens Co., Ltd., and the second recipient was Jung-Ju Kim, the founder of NXC. In 2016, the award was not given because an appropriate candidate could not be identified. The award was held in the Industrial Engineering & Management Building (E2) on November 8. Faculty members including the dean of the College of Engineering Jong-Hwan Kim, the vice dean Hyochoong Bang, the head of Industrial & Systems Engineering Taesik Lee, and the dean of the KAIST Academy Tae-Eog Lee attended the ceremony. After the ceremony, Lee delivered a lecture on ‘Auto-components Business of LG Electronics’ to KAIST students.
2017.11.09
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First International Conference on Science and Technology for Society
KAIST co-organized the 2013 International Conference on Science and Technology for Society which was held on November 28 at the Grace Hall in Seoul EL-Tower. More than 300 people, including members of the Global Social Technology Advisory Board, domestic social technology experts, private companies, government officials, private citizens, and students joined the conference to discuss the roles and responsibilities of science and technology for society. R&D policies and technologies for solving social issues were introduced, and discussions were held on desirable directions for technological development. The first speaker, Yasushi Watanabe, Director of RISTEX (Research Institute of Science and Technology for Society) in Japan, introduced the importance of science and technology for society under the title “Change of R&D Paradigm for Society.” Robert Wimmer, GrAT (Center for Appropriate Technology), Vienna University of Technology in Austria, presented “Need-oriented Design & Solutions for Development.” Kiyoaki Murakami, MRI, Japan, presented “Introduction of Platinum Vision” and Robert Ries, University of Florida, U.S.A., presented “Evaluating the Social Impacts of the Built Environment Using Life Cycle Assessment.” Case studies on social enterprises and presentations on R&D for solving social problems were introduced by ICISTS (International Conference for the Integration of Science, Technology and Society), which is a student group at KAIST, National Research Foundation of Korea (NRF), Korea Institute of Machinery and Materials (KIMM), Korea Research Institute of Bioscience and Biotechnology (KRIBB), Korea Institute of Industrial Technology (KITECH), Electronics and Telecommunication Research Institute (ETRI), and Korea Research Institute of Chemical Technology (KRICT).The conference was hosted by the Ministry of Science, ICT, and Future Planning and co-organized by NRF, KIMM, KRIBB, KITECH, ETRI and KRICT.
2013.12.11
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The output of terahertz waves enhanced by KAIST team
KAIST researchers have greatly improved the output of terahertz waves, the blue ocean of the optics world. This technology is expected to be applied to portable X-ray cameras, small bio-diagnostic systems, and in many other devices. Professor Ki-Hun Jeong"s research team from the Department of Bio and Brain Engineering used optical nano-antenna technology to increase the output of terahertz waves by three times. Terahertz waves are electromagnetic waves with frequencies between 100GHz to 30THz. They are produced when a femtosecond (10^-15 s) pulse laser is shone on a semiconductor substrate with photoconduction antennas, causing a photocurrent pulse of one picosecond (10^-12 s). Their long wavelengths, in comparison to visible light and infrared rays, give terahertz waves a high penetration power with less energy than X-rays, making them less harmful to humans. These qualities allow us to see through objects, just as X-rays do, but because terahertz waves absorb certain frequencies, we can detect hidden explosives or drugs, which was not possible with X-rays. We can even identify fake drugs. Furthermore, using the spectral information, we can analyze a material"s innate qualities without chemical processing, making it possible to identify skin diseases without harming the body. However, the output was not sufficient to be used in biosensors and other applications. Prof. Jeong"s team added optical nano-antennas, made from gold nano-rods, in between the photoconduction antennas and optimized the structure. This resulted in nanoplasmonic resonance in the photoconduction substrate, increasing the degree of integration of the photocurrent pulse and resulting in a three times larger output. Hence, it is not only possible to see through objects more clearly, but it is also possible to analyze components without a biopsy. Professor Jeong explained, "This technology, coupled with the miniaturization of terahertz devices, can be applied to endoscopes to detect early epithelial cancer" and that he will focus on creating and commercializing these biosensor systems. This research was published in the March issue of the international nanotechnology journal ACS Nano and was funded by the Korea Evaluation Institute of Industrial Technology and the National Research Foundation of Korea. Figure: Mimetic diagram of a THz generator with nano-antennas
2012.04.29
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