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Method to Synthesize New Lithium Ion Battery Cathode Material Identified
A KAIST research team headed by Prof. Do-Kyung Kim at the Department of Materials Science and Engineering developed a technology to synthesize a new lithium ion battery spinel cathode which is regarded as a core part of hybrid and lithium battery cars.
The research was conducted in collaboration with a research team of Prof. Yi Cui at Stanford University"s Department of Chemistry. Their findings were introduced in the November issue of Nano Letters, one of the leading academic journals in nano-science.
The newly synthesized lithium ion battery spinel cathode known as spinel LiMn2O4 nanorods is attracting interests as an alternative cathode material since it is a low-cost, environmentally friendly substance for Li-ion battery cathodes. Its raw material is also highly available.
Lithium ion batteries with high energy and power density are important for consumer electronic devices, portable power tools, and vehicle electrification. LixCoO2 is a commonly used cathode material in commercial lithium iron batteries. However, the high cost, toxicity, and limited abundance of cobalt have been recognized to be disadvantageous.
2008.11.20 View 13234 -
KAIST Opens Cell Bench Research Center
KAIST opened a cell bench research center on the campus on Monday, Nov. 17, as a joint project with Samsung Electric Co. and Samsung Medical Center.
On hand at the opening ceremony were about 100 persons from the three organizations, including KAIST President Nam-Pyo Suh, Samsung Electric"s Chief Technology Officer (CTO) Byung-Cheon Koh and Samsung Medical Center Vice President Hyo-Geun Lim.
The newly-opened research center will be involved in the development of individually-tailored anti-cancer medicine using bio-inspired cell chips and technologies for clinical applications. Prof. Young-Ho Cho of the Department of Bio and Brain Engineering was named director of the research center.
"Top-notch professionals from the electronic industry, academia and the medical community have gathered together to establish this research center. We expect the center will open a new path for the science and technology community and the industry to combine their strengths and develop innovative anti-cancer therapeutics," said KAIST President Nam-Pyo Suh at the opening ceremony.
"The development of bio-cell chip technology represents a new challenge for the Samsung Electric which has focused on information technologies thus far. Through cooperation with KAIST and Samsung Medical Center, we expect to be able to develop a simple and efficient cure for cancer patients," commented Samsung Electric CTO Byung-Cheon Koh.
The research center will be initially concentrating on the development of cell chips for lung cancer, one of the primary causes of death for Koreans.
2008.11.17 View 16716 -
KAIST Research Team Unveils Method to Fabricate Photonic Janus Balls
A research team led by Prof. Seung-Man Yang of the Department of Chemical and Biomolecular Engineering has found a method to fabricate photonic Janus balls with isotropic structural colors.
The finding draws attention since the newly-fabricated photonic balls may prove useful pigments for the realization of e-paper or flexible electronic displays.
The breakthrough was published in the Nov. 3 edition of the science journal "Advanced Materials." The Nov. 6 issue of "Nature" also featured it as one of the research highlights under the title of "Future Pixels."
Prof. Yang"s research team found that tiny marbles, black on one side and colored on the other, can be made by "curing" suspensions of silica particles with an ultraviolet lamp. When an electric field is applied, the marbles line up so that the black sides all face upwards, which suggests they may prove useful pigments for flexible electronic displays.
The researchers suspended a flow of carbon-black particles mixed with silica and a transparent or colored silica flow in a resin that polymerizes under ultraviolet light. They then passed the mixture through a tiny see-through tube. The light solidified the silica and resin as balls with differently colored regions, each about 200 micrometers in diameter.
Over the last decades, the development of industrial platforms to artificially fabricate structural color pigments has been a pressing issue in the research areas of materials science and optics. Prof. Yang, who is also the director of the National Creative Research Initiative Center for Integrated Optofluidic Systems, has led the researches focused on fabrication of functional nano-materials through the process of assembling nano-building blocks into designed patterns.
The "complementary hybridization of optical and fluidic devices for integrated optofluidic systems" research was supported by a grant from the Creative Research Initiative Program of the Ministry of Education, Science & Technology.
2008.11.12 View 14770 -
KAIST, Microsoft Research to Set up Research Collaboration Center
KAIST, Korea"s premier institution for science and technology research and education, and Microsoft Research (MSR), the research arm of Microsoft Corp, signed a memorandum of understanding (MOU) to establish a joint research collaboration center in Korea on Oct. 20.
The research collaboration center to be located at the KAIST campus in the Daedeok science and technology town 150 kilometers south of Seoul will be dedicated to promoting joint researches, curriculum innovation, talent fostering and academic exchange in the Asian region.
The MOU signing ceremony at the Westin Chosun Hotel in Seoul was attended by President Nam-Pyo Suh and Vice President Soon-Heung Chang from KAIST, and Craig Mundie, Chief Research and Strategy Officer of Microsoft Corp, and Hsiao-Wuen Hon, Managing Director of MSR Asia from Microsoft.
“We are excited to be working so closely with Microsoft Research,” KAIST President Suh said. “This is the first of many alliances we hope to establish with the world’s industrial leaders that will enable us to resolve some of the toughest problems in computer science and accelerate the next generation of innovation in computing technology and its application in other scientific researches.”
Dr. Hon said: “For over 10 years, Microsoft Research has been committed to working with leading universities throughout Asia to spur computer science research and to strengthen Asia’s knowledge economies by helping foster their capabilities. The Microsoft-KAIST Research Collaboration Center demonstrates our continued efforts to strengthen relations with universities in Korea and build new partnerships with academia here.”
In the last three years, Microsoft Research and KAIST have engaged in close collaboration through research projects, student support programs, and various academic exchange activities. One of the major projects was to construct software development library specifically dedicated to systems biology. A number of excellent students from KAIST participated in the internship program at Microsoft Research in Beijing, China and Redmond, United States.
The establishment of the Microsoft-KAIST research collaboration center will bring the collaborative relations between KAIST and MSR to a new level. The center will provide a platform which unites the innovative minds of KAIST and Microsoft Research to develop technologies that will impact the way people live, learn, work, and play, a KAIST spokesman said.
2008.10.30 View 17697 -
SoC Robot War 2008 Wraps Up 4-Day Competition
The 2008 Intelligent SoC Robot War hosted by KAIST wrapped up its four-day competition on Sunday, Oct. 19, at the Indian Hall of Convention & Exhibition Center (COEX) in southern Seoul.
At the annual contest featuring battles between mechanical robots utilizing System on Chip (SoC) technology, Seoul National University of Technology"s "Fiperion" won top award in the Tank Robot category and Chungbuk National University"s "What is FPGA?" was the champion in the Taekwon Robot category.
In the Tank Robot contest, robots in the form of tanks engaged in duels with laser beams through visual recognition, wireless communication, and audio recognition. On the other hand, the Taekwon Robot contest was a hand-to-hand fight. The robots had to be capable of recognizing the opponent, defending and attacking without external control.
A total of 20 teams in the Tank Robot category and 10 teams in the Taekwon Robot category passed through the preliminary assessments and vied in the final competition. The annual event started seven years ago.
The preliminary assessments conducted between July and September drew a total of 150 teams nationwide. Any team consisting of more than two people and under six undergraduate or graduate students are eligible to take part in the competition.
This year"s event was co-sponsored by Altera, a U.S.-based leading semiconductor manufacturer. Each of the two top-award winning teams received U.S.$1,000 in cash and 10 pieces of DE2 board which is worth $2,700.
2008.10.22 View 11537 -
KAIST, KRIBB Agree to Cooperate in Research of Convergence Technologies
Oct. 15, 2008 -- KAIST and Korea Research Institute of Bioscience and Biotechnology (KRIBB) have agreed to cooperate in the research of convergence fields of biotechnology, information technology and nanotechnology.
To this end, the two institutions concluded a memorandum of understanding to create a new academia-institute cooperative model in the convergence fields on Oct. 15 in Seoul, with KAIST President Nam-Pyo Suh, KRIBB Director Young-Hoon Park and Vice Minister of Education, Science and Technology Jong-Koo Park in attendance.
Under the agreement, the two institutions will set up the tentatively-named KAIST-KRIBB BINT Convergence Institute for the development of technologies and nurturing skilled manpower in the convergence fields.
The partnership of the two institutions is expected to bring broad-based cooperation opportunities and create a massive synergy effect by combining their resources and infrastructure for the development of convergence technologies, KAIST officials said..
The proposed institute is also designed to build a world-class research hub in systems biotechnology by combining strengths of the two institutions with initiatives to achieve the Korean government"s new vision for "low carbon, green growth."
The institute will also serve as a base for domestic brain convergence by concentrating the nation"s research capacities in genetics and brain technology.
KAIST also signed a memorandum of understanding for cooperation in researches in Oriental medicine with three institutions, KRIBB, Daegu Hanny University and Korea Institute of Oriental Medicine.
The agreement calls for the four institutions to conduct joint researches in traditional sciences and Oriental medicine based on systems biology, develop manpower in related fields and share academic and research information.
The agreement is expected to provide impetus to reinforcing competitiveness in compound and convergence technologies and discover new properties in Oriental medicine, according to KAIST authorities.
2008.10.16 View 16768 -
KAIST Team Identifies Nano-scale Origin of Toughness in Rare Earth-added Silicon Carbide
A research team led by Prof. Do-Kyung Kim of the Department of Materials Science and Engineering of KAIST has identified the nano-scale origin of the toughness in rare-earth doped silicon carbide (RE-SiC), university sources said on Monday (Oct. 6).
The research was conducted jointly with a U.S. team headed by Prof. R. O. Ritchie of the Department of Materials Science and Engineering, University of California, Berkeley.
The findings were carried in the online edition of Nano Letters published by the American Chemical Association.
Silicon carbide, a ceramic material known to be one of the hardest substances, are potential candidate materials for many ultrahigh-temperature structural applications. For example, if SiC, instead of metallic alloys, is used in gas-turbine engines for power generation and aerospace applications, operating temperatures of many hundred degrees higher can be obtained with a consequent dramatic increase in thermodynamic efficiency and reduced fuel consumption. However, the use of such ceramic materials has so far been severely limited since the origin of the toughness in RE-SiC remained unknown thus far.
In order to investigate the origin of the toughness in RE-SiC, the researchers attempted to examine the mechanistic nature of the cracking events, which they found to occur precisely along the interface between SiC grains and the nano-scale grain-boundary phase, by using ultrahigh-resolution transmission electron microscopy and atomic-scale spectroscopy. The research found that for optimal toughness, the relative elastic modulus across the grain-boundary phase and the interfacial fracture toughness are the most critical material parameters; both can be altered with appropriate choice of rare-earth elements.
In addition to identifying the nano-scale origin of the toughness in RE-SiC, the findings also contributed to precisely predicting how the use of various rare-earth elements lead to difference in toughness.
University sources said that the findings will significantly advance the date when RE-SiC will replace metallic alloys in gas-turbine engines for power generation and aerospace applications.
2008.10.08 View 15821 -
KAIST Professor Exposes Structural Dynamics of Protein in Solution
-- Dr. Hyot-Cherl Ihee"s 3-Year Research Is Valuable in Pharmaceutical Application
Prof. Hyot-Cherl Ihee and his team at the Department of Chemistry, KAIST, has successfully unveiled the structural dynamics of protein in solution as a result of more than three years" research work.
Nature Methods, a sister publication of the authoritative science magazine Nature, published the treatise, titled "Tracking the structural dynamics of proteins in solution using time-resolved wide-angle X-ray scattering" in its Sept. 22 online edition. The research paper will be carried in the magazine"s printed version in its October edition, according to Dr. Lee who is its correspondence author.
In May 2005, Prof. Ihee successfully photographed the structural dynamics of protein in solid state and his findings were published in the Proceedings of National Academy of Science of the United States. As protein normally exists in human body in solution, not in solid state, he directed his research to developing the technology to capture protein"s dynamics in resolved state.
In July that year, Prof. Ihee succeeded in measuring the structural changes of simple organic molecules in real time. He further developed the technology to uncover the structural dynamics of hemoglobin, myoglobin and cytochrome C.
Prof. Ihee"s research, helped with the Education-Science-Technology Ministry"s Creative Research Promotion Fund, can be applied to new pharmaceutical development projects as well as nanotechnology development, according to KAIST officials.
Prof. Ihee who earned his doctorate at California Institute of Technology in 1994 began teaching at KAIST in 2003. He won the Young Scientist Award given by the Korean government in 2006.
2008.09.22 View 14130 -
KAIST Professor Finds Paradox in Human Behaviors on Road
-Strange as it might seem, closing roads can cut delays
A new route opened to ease traffic jam, but commuting time has not been reduced.Conversely, motorists reached their destinations in shorter times after a big street was closed. These paradoxical phenomena are the result of human selfishness, according to recent findings of a research team led by a KAIST physics professor.
Prof. Ha-Woong Jeong, 40, at the Department of Physics, conducted a joint research with a team from Santa Fe Institute of the U.S. to analyze the behaviors of drivers in Boston, New York and London. Their study found that when individual drivers, fed with traffic information via various kinds of media, try to choose the quickest route, it can cause delays for others and even worsen congestion.
Prof. Jeong and his group"s study will be published in the Sept. 18 edition of the authoritative Physical Review Letters. The London-based Economist magazine introduced Prof. Jeong"s finding in its latest edition.
Prof. Jeong, a pioneer in the study of "complex system," has published more than 70 research papers in the world"s leading science journals, including Nature, PNAS and Physical Review Letters. "Initially, my study was to reduce annoyance from traffic jam during rush hours," Prof. Jeong said. "Ultimately, it is purposed to eliminate inefficiency located in various corners of social activities, with the help of the network science."
The Economist article read (in part):
"...when individual drivers each try to choose the quickest route it can cause delays for others and even increase hold-ups in the entire road network.
"The physicists give a simplified example of how this can happen: trying to reach a destination either by using a short but narrow bridge or a longer but wide motorway. In their hypothetical case, the combined travel time of all the drivers is minimized if half use the bridge and half the motorway. But that is not what happens. Some drivers will switch to the bridge to shorten their commute, but as the traffic builds up there the motorway starts to look like a better bet, so some switch back. Eventually the traffic flow on the two routes settles into what game theory calls a Nash equilibrium, named after John Nash, the mathematician who described it. This is the point where no individual driver could arrive any faster by switching routes.
"The researchers looked at how this equilibrium could arise if travelling across Boston from Harvard Square to Boston Common. They analysed 246 different links in the road network that could be used for the journey and calculated traffic flows at different volumes to produce what they call a “price of anarchy” (POA). This is the ratio of the total cost of the Nash equilibrium to the total cost of an optimal traffic flow directed by an omniscient traffic controller. In Boston they found that at high traffic levels drivers face a POA which results in journey times 30% longer than if motorists were co-ordinated into an optimal traffic flow. Much the same thing was found in London (a POA of up to 24% for journeys between Borough and Farringdon Underground stations) and New York (a POA of up to 28% from Washington Market Park to Queens Midtown Tunnel).
"Modifying the road network could reduce delays. And contrary to popular belief, a simple way to do that might be to close certain roads. This is known as Braess’s paradox, after another mathematician, Dietrich Braess, who found that adding extra capacity to a network can sometimes reduce its overall efficiency.
"In Boston the group looked to see if the paradox could be created by closing any of the 246 links. In 240 cases their analysis showed that a closure increased traffic problems. But closing any one of the remaining six streets reduced the POA of the new Nash equilibrium. Much the same thing was found in London and New York. More work needs to be done to understand these effects, say the researchers. But even so, planners should note that there is now evidence that even a well intentioned new road may make traffic jams worse."
2008.09.18 View 14762 -
Research University Presidents Discuss Global Network to Increase Cooperation
Presidents and leaders of research universities participating in the 2008 International Presidential Forum on Global Research Universities (IPFGRU) held at the Westin Chosun Hotel in Seoul, Korea on Sept. 8, 2008 exchanged views and ideas on how to build and effectively utilize a global research network in order to increase cooperation and exchanges among institutions of science and technology across the world.
The participants agreed on the need to promote the sharing of expertise and facilities, conduct joint researches and positively implement dual degree, roaming professorship and other programs that help institutions in societies at different stages of scientific and technological development maximize the fruits of their research activities.
As a major goal, the participants agreed to create alliances for research and education that can become a new paradigm for global cooperation, with the outcome of discussions at the 2008 IPFGRU providing the guidelines for future endeavors in this direction.
Through the day-long symposium, participants reached general agreements on the following points:
--The concept of sharing faculty or roaming professorship should be actively promoted in order to accelerate global dissemination of academic expertise with the institutions and state authorities concerned easing existing restrictions to such arrangements and ensuring maximum academic freedom of professors involved.
--Dual degree programs especially those involving institutions of different countries need to be further encouraged in view of their benefits of resources sharing, expansion of knowledge and cultural exchanges and that educational authorities should try to remove various forms of limitations.
--As competitions over university ranking would grow intensive as institutions seek to attract better students and more donations, there is need to institutionalize a fairer, globally recognized national, regional and international assessment systems.
--In view of rapid expansion of interdisciplinary researches which calls for the sharing of facilities and expertise among different institutions, it is necessary to establish national or regional hubs to make state-of-the-art facilities and equipment available for researchers and research programs experiencing limitations in financial and material resources.
--National governments and political leaders should better recognize the importance of science and technology for societal and global prosperity and the science and technology community needs to make more communicative approaches to politicians so that greater trust may be built between them.
--Arrangements to conduct joint research involving international industries, academia and government should be accelerated with a view to addressing the common problems facing the mankind in the 21st century, including energy, environment, water, food and sustainability. The United Nations and other international organizations need to provide stronger support for research universities’ efforts in this direction.
--Research universities across the world should make concerted efforts to establish a global cooperative network that can facilitate the flow of information, resources and research personnel to realize universal advancement of science and technology and, ultimately, enhance the quality of human life.
Keynote speakers and panelists and the subjects of their presentations were:
Participants" List
Topic
Name of University
Speaker
Position
1. Roaming Professorships: To Whose Benefit?
Illinois Institute of Technology
John L. Anderson
President
Improving the Competitiveness of Global University Education
National University of Sciences and Technology
Muhammad Mushtaq
Pro-Rector
Improving the Competitiveness of Global University Education
Tianjin University
Fuling Yang
Director of International Cooperation Office
Sharing Differences in Culture and Environment for Sustainable Education for the Future Generation
Kumamoto University
Tatsuro Sakimoto
President
Sharing Differences in Culture and Environment for Sustainable Education for the Future Generation
Odessa National I. I. Mechnikov University
Sergiy Skorokhod
Vice Rector for International Cooperation
Promoting Science and Engineering Education among Secondary Students
Czech Technical University of Prague
Miroslav Vlcek
Vice Rector
Promoting Science and Engineering Education among Secondary Students
South China University of Technology
Xueqing Qiu
Vice President
Preserving and Utilizing Expert Knowledge for Better Education
Eotvos Loran University
Jösef Nemes-Nagy
Vice Dean
2. Dual Degree Programs: Future Potential & Challenges
University of Queensland
Paul Greenfield
President and Vice Chancellor
Benefits of Dual Degree Program
Institut National des Sciences Appliquées de Lyon
Martin Raynaud
Director, International Relations
Benefits and Limitations of Dual Degree Program
National Institute of Development Administration
Pradit Wanarat
Vice President for Academic Affairs
The Role of Dual Degree Program Easing Brain Drain
Nanyang Technological University
Lam Khin Yong
Associate Provost, Graduate Education & Special Projects
International Dual Degree Programs and Strategies
Georgia Institute of Technology
Steven W. McLaughlin
Vice Provost, International Initiatives
Dual Degree Program and Global Learning Networks
City University of Hong Kong
Richard Yan-Ki Ho
Special Advisor to the President
Raising International IQs of Scientists and Engineers for Global Enterprise
Technion, Israel Institute of Technology
Moshe Shpitalni
Dean,
Graduate Studies
Luncheon Speech
“Beneficial Relationships between Academia and Companies”
Medical Information Technology
A. Neil Pappalardo
Chairman and CEO
3. Sharing Facilities and Expertise
KAIST
Nam Pyo Suh
President
Promoting International Sharing of Research Facilities and Expertise to Strengthen Research Outcomes
Griffith University
Ian O"Connor
President
Economic Benefits of Sharing Research Facilities and Expertise
POSTECH
Sunggi Baik
President
Economic Benefits of Sharing Facilities and Expertise: National NanoFab Center
National NanoFab Center
Hee Chul Lee
President
Communicating Science and Technology to Political Leaders
Office of the President of KOREA
Chan Mo Park
Special Advisor to the President for Science and Technology
Filling the Gap of University Resources
Bandung Institute of Technology
Djoko Santoso
Rector
4. An Approach to Joint Research Ventures with NASA
NASA
Yvonne Pendleton
Deputy Associate Center Director
Benefits of International Joint Venture Research Projects
University of Adelaide
Martyn J. Evans
Director, Community Engagement
Benefits of International Joint Projects
Mahidol University
Sansanee Chaiyaroj
Vice President
International Joint Research Projects
University of Iowa
P. Barry Butler
Dean, College of Engineering
Joint Research: University of Technology Malaysia’s Experience at National and International Level
University Technology of Malaysia
Tan Sri Mohd Ghazali
Vice-Chancellor
Sharing Intellectual Property Rights
Paris Institute of Technology
Cyrille van Effenterre
President
Global Economic and Social Contribution of International Joint Project Cooperation
Kyushu University
Wataru Koterayama
Vice President
5. Globalization through Interfacing with Existing Networking
Technical University of Denmark
Lars Pallesen
Rector
Establishing Global Science and Technology Networking
National Cheng Kung University
Da Hsuan Feng
Senior Executive Vice President
Establishing Global Science and Technology Networking
University of Technology of Troyes
Christian Lerminiaux
President
The Role of Global Science and Technology Network for Higher Education in the 21st Century
Iowa State University
Tom I-P. Shih
Department Chair
Regionalized or Globalized Science and Technology Networking
Babes-Bolyai University
Calin Baciu
Dean, Faculty of Environmental Sciences
Globalized Science and Technology Networking
Harbin Institute of Technology
Shuguo Wang
President
Connecting Regional Science and Technology Networks for the Global Networking
Ritsumeikan University
Sadao
Kawamura
Special Aide
to the Chancellor
How Can a Publisher Strengthen the Global Network of Universities?
Elsevier
Youngsuk Chi
Vice Chairman
2008.09.18 View 22110
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Prof. Sang-Yup Lee Receives Merck Award for Metabolic Engineering
Prof. Sang-Yup Lee of KAIST"s Department of Chemical and Biomolecular Engineering has been chosen as the winner of the 2008 Merck Award for Metabol;ic Engineering established by the world"s leading pharmaceutical and chemical company Merck, KAIST officials said Tuesday, Sept. 16.
The Distinguished Professor of KAIST and LG Chem Chair Professor will receive the award on Sept. 18 during the 7th Metabolic Engineering convention now underway at Puerto Vallarta, Mexico. Prof. Lee will give a commemorative lecture, titled "Systems Metabolic Engineering for Chemicals," at the biannual academic conference. Prof. Lee is the fourth to win the coveted award which is given to the world"s top expert in metabolic engineering with outstanding achievements in the field.
Prof. Lee, 44, who graduated from Seoul National University and earned his master"s and doctoral degrees in chemical engineering from Northwestern University of the United States, is now the dean of the College of Life Science and Bioengineering, KAIST. Since 1994, he has served as the head of the Metabolic and Biomolecular Engineering National Research Laboratory, director of the BioProcess Engineering Center, Director of the Bioinformatics Research Center and Co-Director of the Institute for the BioCentury in KAIST.
Prof. Lee said he was receiving the Merck award "as a representative of KAIST graduates, students and researchers" who have worked with him at the Metabolic Engineering Lab. He added he was happy to see the outcome of bioengineering development projects supported by the Ministry of Education, Science and Technology over the past years was now being recognized by the world"s leading scientific society with the Merck Award.
Metabolic engineering, the art of optimizing genetic and regulatory processes within cells to increase the cell"s production of a certain substance, develops technologies that hold the key to the resolution of the world"s energy, food and environmental problems. The indispensible technology in bioengineering can be applied to the production of biomass to obtain alternative fuel.
Prof. Lee has actively participated in publishing such academic periodicals as Biotechnology Journal (as chief editor), Biotechnology and Bioengineering (deputy editor) and Metabolic Engineering (a member of the editorial committee).
2008.09.17 View 15740 -
KAIST, KARI to Conduct Joint Research, Exchange Tech Manpower
KAIST and the Korea Aerospace Research Institute (KARI) have agreed to conduct joint researches and exchange technical personnel in order to spur research activities on artificial satellite and other aerospace technology, KAIST announced Wednesday, Sept. 17.
An MOU was signed in a ceremony at the KARI Tuesday, attended by senior officials of the two institutions which both are located in the Daedeok Technopolis in Daejeon City.
Researchers from KARI will participate in KAIST"s interdisciplinary project of "Space Exploratory Engineering" and the two organizations will also jointly take part in the International Lunar Network (ILN), an international moon exploration program, to accelerate development of space technology in Korea.
As a result of the tieup, Dr. Lee So-yeon, Korea"s first astronaut who lived in space for a week aboard a Russian spacecraft this year, will be able to teach and conduct research at KAIST as an adjunct professor. Lee earned her doctorate from KAIST.
2008.09.17 View 15290