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Liver Damage Mechanism of Hepatitis C Proven
KAIST researchers found mechanics behind a Hepatitis C virus, thereby taking a step closer to the development of a cure for Hepatitis C. Professor Choi Chul Hui (Department of Biological and Brain Engineering) and Professor Shin Eui Chul (Graduate School of Medical Sciences) proved, for the first time in the world, the mechanism behind liver damage of a patient with Hepatitis C. It is anticipated that this discovery will allow for the development of a Hepatitis C cure that has no side effects and little Liver damage. Hepatitis C is an immune response of the body to the Hepatitis C virus and causes liver irritation. Around 170million people are infected with Hepatitis C worldwide including 1% of the Korean population. Once infected, most cases turn into chronic cases and may lead to liver cancer. However it was impossible to infect Hepatitis C within a test tube cell environment until 2005 and up till then Chimpanzees were used to study the virus which proved to be a huge barrier to research. The research team used cells infected with Hepatitis C virus and found out that the virus works by increasing the destruction of cells by the TNF-a protein responsible for the cell’s immune response. In addition the protein structure of the virus that causes this reaction was successfully found. Conventionally the Hepatitis C medication focused on the suppressing the growth of the virus and therefore had many side effects. The experimental results allow new medication aimed at suppressing the actual mechanism of liver damage to be discovered. The result was selected as the cover dissertation of the September Edition of the Hepatolog magazine.
2012.09.11
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Professor Song Joon Hwa develops new Location Tracking Application
Professor Song Joon Hwa developed a location tracking application that alerts the teacher when students on field trips stray too far from the group via a smartphone and a headset. Conventional Location Tracking Applications utilize GPS systems and as a consequence does not function indoors where the satellite signal is nonexistent. However Professor Song’s method is unique in the fact that it utilizes radio waves which allows signal transfer both indoors and outdoors. In addition different alerts are given off in difference locations and therefore the technology can be applied in finding the effectiveness of the field trip and the social behaviors of students.
2012.09.11
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Successful development and analysis of mesoporous quasicrystal structures
Professor Osamu Terasaki’s research team from the EEWS Graduate School at KAIST successfully synthesized mesoporous quasicrystalline silica and developed a new method of analyzing its growth. The theory proposed by the team laid the foundation for the scientific examination of quasicrystal phenomena during the formation of micelles particles, a type of soft matter. The paper was published in the July edition of Nature magazine. Scientists have faced difficulty in systematically explaining the mesoporous quasicrystal structures that are found in solidified versions of soft matter systems. However, the theoretical foundation from this research is expected to help promote the research and development of new nano-structured materials. Mesoporous quaicrystals are soft matters that have high symmetry and a larger characteristic length scale than the nanoscale, thereby making it possible to develop materials that have controllable optical properties. This technology can be applied to the sustainable storage, use, and reproduction of energy. Professor Terasaki’s team succeeded in synthesizing mesoporous quasicrystalline silica and proved the formation of dodecagonal column-shaped crystals as well as dodecagonal, rotationally symmetric electron diffraction patterns near the crystals using Transmission Electron Microscopy. Quasicrystals are an abbreviation of ‘quasiperiodic crystals’ and have what is called the ‘third solid’ property; they have a structural arrangement that is between arranged crystal structures, such as metals, and non-crystalline structures, such as glass. This crystalline structure was only recently found, and the 2011 Nobel Chemistry Award was given to research in this field. When porous materials are synthesized into quasicrystals, the crystalline structures of the pores can be designed and controlled in any way, making it possible to create new materials for a wide range of fields. Professor Terasaki said that ‘The discovery of highly symmetric quasicrystals can lead to the alteration of a material’s optical properties, allowing the development of photonic crystals in the visible spectra.’ He also explained that this control of a material’s optical energy absorption could be the core technology behind energy harvesting. This research was jointly conducted by Professor Terasaki from the EEWS Graduate School at KAIST and Stockholm University in Sweden.
2012.08.01
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Professor Bae Sang Min Wins Multiple Prestigious Design Awards
Summer is perfect for many outdoor activities, but it is also the season for mosquitoes, an annoying pest that makes outdoor experiences unpleasant and sometimes even dangerous. An easy-to-use and environmentally-friendly spray, “Sound Spray” (http://idsa.org/soundspray-self-generating-non-toxic-ultrasonic-anti-mosquito-spray), which repels mosquitoes by setting off ultrasonic waves, has been developed by a research team at KAIST. The spray produces sounds similar to those of mosquitoes’ natural predators. Sound Spray made the list of finalists in the category of "Social Impact Design" from the 2012 International Design Excellence Awards (IDEA). The IDEA is one of the most renowned design competitions in the world, which has been held annually by the Industrial Designers Society of America (IDSA). Inside Sound Spray is a battery that generates electricity when a user shakes the spray bottle. Electrical energy produced by the battery creates an ultrasonic sound that mosquitoes dislike, thereby discouraging their contact with human skin. Professor Sangmin Bae from the Department of Industrial Design at KAIST explains, “In regions such as Africa or Southeast Asia, mosquitoes are still posing a big threat to public health. Unlike Freon-based, disposable insect repellents on the market, Sound Spray is eco-friendly, easy to carry around, reusable, and affordable. I plan to commercialize and distribute it to nations in Africa or Southeast Asia to help them combat against malaria, an infectious disease that patients contract through mosquito bites.” Professor Bae also received another award from the 2012 IDEA in the area of Commercial and Industrial Products: a bronze medal for a milling machine, the Namsun Milling Machine (http://www.idsa.org/namsunnew-innovative-milling-machine-design). The machine has large windows on each side of its main body that display a transparent workflow so that users easily understand the machine’s operation status. Curved lines are actively used for the exterior design of the machine to create a more friendly work environment. In addition to the 2012 IDEA, Professor Bae has participated in other major international design awards, including the Red Dot Award, the If Design Award Japan, and the Good Design Award, from which his research team has received a total of 41 prizes. Professor Bae initiated a campaign in 2005 called “Philanthropy Design,” through which he has donated many of his designs to help people in need. For more on his research, please visit http://www.coroflot.com/frame29/Portfolio1.
2012.07.26
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Production of chemicals without petroleum
Systems metabolic engineering of microorganisms allows efficient production of natural and non-natural chemicals from renewable non-food biomass In our everyday life, we use gasoline, diesel, plastics, rubbers, and numerous chemicals that are derived from fossil oil through petrochemical refinery processes. However, this is not sustainable due to the limited nature of fossil resources. Furthermore, our world is facing problems associated with climate change and other environmental problems due to the increasing use of fossil resources. One solution to address above problems is the use of renewable non-food biomass for the production of chemicals, fuels and materials through biorefineries. Microorganisms are used as biocatalysts for converting biomass to the products of interest. However, when microorganisms are isolated from nature, their efficiencies of producing our desired chemicals and materials are rather low. Metabolic engineering is thus performed to improve cellular characteristics to desired levels. Over the last decade, much advances have been made in systems biology that allows system-wide characterization of cellular networks, both qualitatively and quantitatively, followed by whole-cell level engineering based on these findings. Furthermore, rapid advances in synthetic biology allow design and synthesis of fine controlled metabolic and gene regulatory circuits. The strategies and methods of systems biology and synthetic biology are rapidly integrated with metabolic engineering, thus resulting in "systems metabolic engineering". In the paper published online in Nature Chemical Biology on May 17, Professor Sang Yup Lee and his colleagues at the Department of Chemical and Biomolecular Engineering, Korea Advanced Institute of Science and Technology (KAIST), Daejeon, Korea present new general strategies of systems metabolic engineering for developing microorganisms for the production of natural and non-natural chemicals from renewable biomass. They first classified the chemicals to be produced into four categories based on whether they have thus far been identified to exist in nature (natural vs. nonnatural) and whether they can be produced by inherent pathways of microorganisms (inherent, noninherent, or created): natural-inherent, natural-noninherent, non-natural-noninherent, and non-natural-created ones. General strategies for systems metabolic engineering of microorganisms for the production of these chemicals using various tools and methods based on omics, genome-scale metabolic modeling and simulation, evolutionary engineering, synthetic biology are suggested with relevant examples. For the production of non-natural chemicals, strategies for the construction of synthetic metabolic pathways are also suggested. Having collected diverse tools and methods for systems metabolic engineering, authors also suggest how to use them and their possible limitations. Professor Sang Yup Lee said "It is expected that increasing number of chemicals and materials will be produced through biorefineries. We are now equipped with new strategies for developing microbial strains that can produce our desired products at very high efficiencies, thus allowing cost competitiveness to those produced by petrochemical refineries." Editor of Nature Chemical Biology, Dr. Catherine Goodman, said "It is exciting to see how quickly science is progressing in this field – ideas that used to be science fiction are taking shape in research labs and biorefineries. The article by Professor Lee and his colleagues not only highlights the most advanced techniques and strategies available, but offers critical advice to progress the field as a whole." The works of Professor Lee have been supported by the Advanced Biomass Center and Intelligent Synthetic Biology Center of Global Frontier Program from the Korean Ministry of Education, Science and Technology through National Research Foundation. Contact: Dr. Sang Yup Lee, Distinguished Professor and Dean, KAIST, Daejeon, Korea (leesy@kaist.ac.kr, +82-42-350-3930)
2012.05.23
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KAIST College of Business ranks no.1 in Asia for executive education
KAIST College of Business ranked 28th in the world and 1st in Asia in the UK Financial Times (FT) 2012 Executive Education open ranking, making it the only school in Korea to be included. The FT ranking selects the world’s top 65 business graduate schools based on executive education course design, teaching methods & materials, faculty, new skills & learning, quality of participants, and several other criteria. Last year, the KAIST executive education program ranked 29th in the world and 2nd in Asia. This year, it surpassed China’s CEIBS to rank 1st in Asia and has now been included in the ranking for three consecutive years. Looking at the individual criteria, KAIST ranked highly in course preparation (11th), international location (11th), facilities (12th), and follow-up (5th) and saw increases in aims achieved (31st) and course design (29th). KAIST attributed its success to the differentiation and specialization of education courses based on position, industry, and enterprise. KAIST College of Business operates an integrative course that fuses business management with science & technology, information media, medicine and innovation. The school runs both a chief and junior executive program to cater to different positional needs and provides specialized lectures that consider a company’s industry and size. The ‘international location’ criteria saw a huge leap from 23rd to 11th due to the use of both long term and short term overseas exchange programs. The ‘Global Leader’ course created in 2011 is taught only in English and allows students to study abroad in a partner school in the second semester. The college’s knowhow in the MBA program also achieved recognition with high rankings in new skills & learning (18th) as well as in teaching methods & materials (24th). College of Business President Lee Byung Tae said that the school’s success was achieved through a specialized curriculum that considers the market and explained that the ranking reflects the school’s competitiveness. He also said that KAIST will continue to provide the best educational services appropriate for KAIST’s outstanding reputation. In the overall ranking, Swiss IMD was ranked number 1, followed by the Harvard Business School. In Asia, China’s CEIBS (29th), Singapore’s Aalto University (42nd), and the National University of Singapore Business School (64th) followed suit.
2012.05.17
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International workshop on healthcare technology to be held on campus, April 24, 2012
KAIST and the KTH Royal Institute of Technology (KTH), Sweden, host a joint workshop on healthcare technologies on Tuesday, April 24, at the LG Semicon Hall (N24). Open to the public, the workshop will proceed with presentations and discussions by participants from both institutions. Presentation topics and speakers are as follows: “Applied medical engineering, innovation from clinical problems” by Professor Lars-Åke Brodin, Dean of School of Technology and Health, KTH “ICT in healthcare” by Professor Björn-Erik Erlandsson, School of Technology and Health, KTH “Department of environmental physiology, human research in extreme environments” by Researcher Mikael Grönkvist, School of Technology and Health, KTH “Brain function imaging using high-resolution MRI technology” by Professor Hyun Wook Park, Department of Electrical Engineering, KAIST “Bioinstrumentation for healthcare and physical human robot interactions” by Professor Jung Kim, Division of Mechanical Engineering, KAIST “A portable high-resolution near-infrared spectroscopy system” by Professor Hyeon-Min Bae, Department of Electrical Engineering, KAIST “Lab-on-a-chip technologies for integrative bioengineering” by Professor Je-Kyun Park, Department of Bio and Brain Engineering, KAIST “The cytoskeleton in cancer and regulation by oncogenic signaling” by Professor David M. Helfman, Department of Biological Sciences, KAIST Professor Chang Dong Yoo, Associate Vice President of Office of Special Projects and Institutional Relations at KAIST, who organized the workshop, says “Aging population and health issues are driving the demand for more sophisticated medical devices, procedures, and most importantly, qualified scientists and engineers specialized in health-related fields. This joint workshop will be a great chance to share new ideas and develop joint research between two leading research-oriented universities in two countries.” Partially supported by LG Ericsson in Korea, the workshop is funded largely by the generous donation, made last June by a Swedish couple, to KAIST scholar exchange program. The couple (Rune Jonasson and Kerstin Jonasson) donated 70 million krona (about 11.8 billion Korean won) to KTH last year and requested that some portion of the sum be used for a scholar exchange program with KAIST. The wife of the couple, Kerstin Jonasson, participated in the Korean War as a nurse, and upon her wish for further development in Korea’s science and technology, KAIST and KTH decided to use the donation for research in the field of healthcare and for a post-doc researcher exchange program. KTH is a world-class university of Sweden and has produced numerous researchers for private enterprises, like Ericsson, and venture businesses. Since 1988, KTH offers a top notch program for information technology; the School of Information and Communication Technology is located in the Kista district, a vibrant cluster of information and communications technology industries in Sweden, and has taken on the crucial role of supplying personnel to the Kista Science Park as well as to academic-industrial cooperation. For any inquiries, please contact the International Relations Team at +82-42-350-2441 (email: jungillee@kaist.ac.kr).
2012.04.21
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Attosecond pulses measure ultrafast photoionization processes by Laser Focus World, April 12, 2012
Laser Focus World, a monthly magazine published since 1965 that covers news and business developments on laser, photonics, and optoelectronics technologies, applications, and markets, released a news article on the recent research result by Professor Chang-Hee Nam from the Department of Physics. For the article, please follow the link below: http://www.laserfocusworld.com/articles/2012/04/kaist-attosecond
2012.04.13
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10 Technolgies to Change the World in 2012: The Future Technology Global Agenda Council
The Future Technology Global Agenda Council which is under the World Economy Forum and which KAIST’s biochemical engineering department’s Prof. Sang Yeob Lee is the head of, chose the 10 new technologies that will change the world in year 2012. The ten technologies include: IT, synthetic biology and metabolic engineering, Green Revolution 2.0, material construction nanotechnology, systematic biology and the simulation technology of biological systems, the technology to use CO2 as a natural resource, wireless power transmission technology, high density energy power system, personalized medical/nutritional/disease preventing system, and new education technology. The technologies were chosen on the basis of the opinions various science, industry, and government specialists and is deemed to have high potential to change the world in the near future. The Future Technology Global Agenda Council will choose ten new technologies yearly starting this year in order to solve the problems the world now faces. The informatics systems that was ranked 1st place, sifts only the data necessary for decision making out of the overflowing amount of data. Much interest has been spurred at the Davos forum. The synthetic biology and metabolic engineering chosen is expected to play an important role in creating new medicines and producing chemical substances and materials from reusable resources. Biomass has also been chosen as one of the top ten most important technologies as it was seen to be necessary to lead the second Green Revolution in order to stably provide food for the increasing population and to create bio refineries. Nanomaterials structured at the molecular level are expected to help us solve problems regarding energy, food, and resources. Systematic biology and computer modeling is gaining importance in availing humans to construct efficient remedies, materials, and processes while causing minimum effects on the environment, resource reserves, and other people. The technology to convert CO2, which is considered a problem all over the world, into a useful resource is also gaining the spotlight Together with such technologies, wireless power transmission technology, high density energy power system, personalized medical/nutritional/disease preventing system, and new education technology are also considered the top ten technologies to change the world. Prof. Lee said, “Many new discoveries are being made due to the accelerating rate of technological advancements. Many of the technologies that the council has found are sustainable and important for the construction of our future.”
2012.04.04
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Inexpensive Separation Method of Graphene Developed
The problem with commercializing graphene that is synthesized onto metals over a wide area is that it can not be separated from the metal. However, a groundbreaking separation technology which is both cheap and environment friendly has been developed. Prof. Taek soo Kim and Prof. Byung Jin Cho"s research teams have conducted this research under the support of the Global Frontier program and Researcher Support Program initiated by The Ministry of Education and Science and Korea Research Foundation. The research results have been posted on the online news flash of Nano Letters on februrary 29th. (Thesis title: Direct Measurement of Adhesion Energy of Monolayer Graphene As-Grown on Copper and Its Application to Renewable Transfer Process) The research has generated exact results on the interfacial adhesive energy of graphene and its surface material for the first time. Through this, the catalyst metal are no longer to be used just once, but will be used for an infinite number of times, thereby being ecofriendly and efficient. Wide area graphine synthesized onto the catalyst meatal are used in various ways such as for display and for solar cells. There has been much research going on in this field. However, in order to use this wide area graphene, the graphene must be removed from the catalyst metal without damage. Until now, the metal had been melted away through the use of chemical substances in order to separate the graphene. However, this method has been very problematic. The metal can not be reused, the costs are very high, much harmful wastes were created in the process of melting the metals, and the process was very complicated. The research teams of Professors Taek Su Kim and Byung Jin Cho measured the interfacial adhesive energy of the synthesized graphene and learned that it could be easily removed. Also, the mechanically removed graphene was successfully used in creating molecular electronic devices directly. This has thus innovatively shortened the graphene manufacturing process. Also, it has been confirmed that the metalic board can be reused multiple times after the graphene is removed. A new, ecofriendly and cost friendly method of graphene manufacturing has been paved. Through this discovery, it is expected that graphene will become easier to manufacture and that the period til the commercialization date of graphene will therefore be greatly reduced Prof. Cho stated " This reserach has much academical meaning significance in that it has successfully defined the surfacial adhesive energy between the graphene and its catalyst material and it should receive much attention in that it solved the largest technical problem involved in the production of graphene.
2012.04.04
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New Era for Measuring Ultra Fast Phenomena: Atto Science Era
Domestic researchers successfully measured the exact status of the rapidly changing Helium atom using an atto second pulse. Thanks to this discovery, many ultrafast phenomena in nature can now be precisely measured. This will lead to an opening of a new "Atto Science" era. Prof. Nam Chang Hee led this research team and Ph.d Kim Kyung Taek and Prof. Choi Nak Ryul also participated in this research. They have conducted the research under the support of the Researcher Support Program initiated by The Ministry of Education and Science and Korea Research Foundation. The research result was published in the prestigious journal "Physical Review Letters" on March 2nd. (Title: Amplitude and Phase Reconstruction of Electron Wave Packets for Probing Ultrafast Photoionization Dynamics) Prof. Nam Chang Hee"s research team used atto second pulse to measure the ultrafast photoionization. His team used atto second X-ray pulse and femto second laser pulse to photoionize Helium atoms, and measure the wave speed of the produced electron to closely investigate the ultrafast photoionization process. Atom"s photoionization measurement using an atto second pulse was possible using the research team"s high-energy femto second laser and high-performance photo ion measurement device. This research team succeeded in producing the shortest 60 atto second pulse in the world using high-harmonic waves. The research team used high-power femto second laser to produce atto second high-harmonic pulse from argon gas, used this to photoionize Helium atoms, and measured the ultrafast photoionization of the atoms. Prof. Nam Chang Hee said, "This research precisely measured the exact status of rapidly changing Helium atoms. I am planning to research on measuring the ultrafast phenomena inside atoms and molecules and controlling the status of the atoms and molecules based on the research result."
2012.04.04
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The Australian: Asia more than competition, March 30, 2012
The Australian, the largest-selling newspaper in Australia, carried an article titled, “Asia more than competition,” an interview with Dr. Simon Marginson who is Professor of Higher Education in the Center for the Study of Higher Education at the University of Melbourne. Professor Marginson talks about the recent rise of universities in Asia, predicting that the Asian universities will eventually take up as much an equal share of importance as universities in Northwestern Europe in leading the world’s higher education within the next five to ten years. For the article, please follow the link below: The Australian Asia more than competition: Simon Marginson by: John Ross March 30, 2012 12:00AM http://www.theaustralian.com.au/higher-education/asia-more-than-competition-marginson/story-e6frgcjx-1226309922402
2012.03.30
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