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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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Creation of Synthetic Antibodies: Professor Hak Seong Kim
Synthetics antibodies which can replace antibodies from humans used as ingredients of medicines have been developed. It can increase the costs to 1/100 of the current costs and is much easier to develop. It is expected that the development period will be shortened from 10 years to 5. Prof. Hak Seong Kim from the Biology department of KAIST conducted a joint research with Prof. Dong Seob Kim to reconstruct proteins and has succeeded. The synthetic antibody displays much strength in terms of its productivity, structural formation, and bonding capability, and is thus regarded as an ideal protein. It can replace the antigens that are currently in use. It is expected that Korea will therefore be able to lead the world market for protein medicines which is a 192trillion won industry. The original antibody has been used for not only treating diseases, but also for various other applications in the fields of medical sciences and biology. However, it is produced through a very complex process involving the incubation of animal cells, and is therefore very expensive. Also, most antibodies are already patented by more developed countries, so a high royalty fee must be paid. Because of this, many countries including Korea has been concentrating on developing biosimilars copying the antibody medicines for which the patents have already expired. This causes Korea to be behind in the development of antibody protein pharmaceuticals. Prof. Kim’s research team has focused on the face that the protein existing in some eels are not antibodies but functions as one, and has been successful in developing a synthetic antibody. The synthetic antibody can be mass produced from the colon bacillus, which allows it to be produced at 1/100 the original cost. It is in a module structure which allows the structuring of the antibody into the desired structure, enabling it to be developed into a protein-based medicine within 5 years. Together with this, the coherence with the important antigens can be easily controlled, thus allowing for highly effective treatments, less side-effects, high security regarding heat and pH, and the immunogen levels being negligeable. This suggests a very high rate of the antibody being converted into a protein based medication. The synthetic antibody technology has been tested as a sample for the cure for lung diseases and rheumatism and has been proven to be appropriate. Animal testing will be conducted soon. Prof Kim said “The original antibodies had a small area allowing the bonding with antibodies, creating barriers for raising bonding strength and structuring. The newly created antibody carries only the strengths and will become a new protein based medicine purely created by Korean technology to replace the antibodies currently used in medications.” Furthermore, he added that, “The synthesized antibody structuring and designing technology will be widely used in the areas of detecting, diagnosing, and analyzing diseases.” At the same time, this research result has been published in the Feb 10th issue of the PNAS, and has been supported by the future promising pioneer business program held by the Ministry of Education and Technology.
2012.04.04
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Paving the Way to Next Generation Display
A new type of LCD that does not require polymer orientation films has been developed by researchers within the country. This technology will enable the creation of thiner and higher definition display. Prof. Hee Tae Jung form KAIST’s biochemical engineering department led the research and Hyun Soo Jung, Hwan Jin Jeon doctoral students (1st co-authors), Doctor Yun Ho Kim from Korea Chemistry Research Center, and Prof. Shin Woong Kang from Jeon Buk University ( co-author) have participated in this research. This research has been funded by the WCU program and middle-grade researcher support program. The results of the research has been published as the online update of ‘‘Nature Asia Materials(NPG Asia Materials)” which is a sister magazine of the world renowned academic magazine ‘Nature’. The flat display industry is the core industry leading the 21st century’s IT industry. The LCD is the main area of research. Korea is the leader of this industry, holding more than 50% of the world market. Many technologies are combined to make the electro-optic devices of the LCD function. The most important technology, which determines the indicating element’s quality and function is the technology to align the liquid crystals in one direction. Currently, all LCD products are created by mechanically cutting into the surface of the polymer film and orienting the liquid crystal material along these cuts. However, the creation of polymer orientation films cost much time and money, and the high temperature processes necessary to stabilize the polymers does not allow for the free selection of circuit boards, and thus does not allow for the use in flexible display. Prof. Hee Tae Jung devised a method to orient liquid display without the use of a polymer film using ITOs. Prof. Jung’s base technology has been tested on ITOs to maintain the necessary transparency and conductivity after forming a pattern with high decomposition rates and slenderness ratios. The technology developed by the research team can horizontally or vertically align the transparent conductors without the use of polymer orientation films. Thus, the manufacturing processes have become much shortened and the LCDs can be made in much thinner from a few micrometers to a few centimeters. Also, it has a lower functioning voltage and faster response speed, showing the prospects of a high definition ultra-fast screen display development. Furthermore, this technology can be used for any type of board, and can be adjusted to a nanometer scale. This enables for its use in LCD based flexible or multi-domain modes. Also, the transparent conductor patterning technology devised by the research team can be used not only for displays, but also for touch panels with highly increased sensitivity. Prof. Jung said, “It was a long desire of the industry and academia to find a way to replace the polymer orientation film. This new technology does not need any polymer orientation films, and we can still use the original boards used for LCDs. This mean a lot to the industry. Also, this technology will increase the sensitivity of the touch panels for tablet PCs and smart phones. It can be used in many areas of future electronics base technology.”
2012.04.04
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Undergraduate Research Program, Putting Wings on Undergraduate"s Dreams
KAIST held the 2011 URP Research Result Presentation in the Creative Learning Center on the 17th. Four students Jae Gyung Seo, Tran An Tu, Gun Sik Ahn, and Gyung Ryul Bong have been chosen as the grand prize winners. The grand prize winners receive 3.5million won to allow them to participate in an international academic conference. The URP program is the first of its kind in Korea and has been benchmarked from MIT’s UROP(Undergraduate Research Opportunity Program). The school selects 60 individual and 20 team research projects for undergraduates twice a year and provides mentorship as well as financial support. Students signing up for the URP are to submit research plans and are then chosen through looking at these documents. Students receive 6 months of research funds and are to work under a professor and TA in groups of 2 to 3 or individually. The URP program which is funded by the Ministry of Science and Technology has settled in successfully and has been expanded to the entire country. The head of the R&D team, Yong Jae Sung, stated, “The number of research plans have been 154 in 2008, 189 in 2009, 220 and 251 respectively in 2010 and 2011. It’s continuously rising. And over 80% of responses on satisfaction surveys have replied that students were satisfied. It is very popular among undergraduates.“ Student Sang Yeon Cho has also said, “I was able to research on everything that I wanted under funding of the school and the guidance of renowned professors thanks to the URP program.” To Seul Gi Lee, a graduate student for the electrical engineering department who has developed the wearable sleeping pattern analysis system, URP is an especially special program. She said, “I successfully researched in the wearable health care field as my URP research material in 2006 when I was in my junior year. I made second place. After this, I have continued my research in this field on SoC(System on Chip) for wearable healthcare in graduate school and will be receiving my doctorate degree on the 24h.” Doctor Seul Gi Lee has been recognized in the field of wearable healthcare for her research and has been hired as a researcher in the Holst Centre which is a national research center funded by the Netherlands’ government. She will continue to research on measuring and analyzing biological readings.
2012.04.04
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NPKI Launch Workshop Held
Molecular Physics Department Expected to Have ‘NPKI’ Launch Workshop - Numerous physicists tracking the god-particle ‘Higgs’ attending- The NPKI: New Physics at Korea Institute which was launched a six day workshop in Shinla Hotel, Seoul with 50 physicists from in and out of the country. The event started with Professor Gi Woon Choi’s welcoming speech. A heated debate with the theme ‘Top physics and electroweak symmetry breaking in the LHC era’ took place in the event. NPKI was created this year to search into the most fundamental workings of nature, research the meaning of such mechanisms, and share this knowledge with not only the general public, but also with the teenagers who wish to someday become physicists. Professor Gi Woon Choi from KAIST, Professors Byoung Wong Ko and Eung Jin Jeon from the Advanced Science Institute, and more are participated in this workshop from Korea. From abroad, world renowned professors such as Prof. Csaba Csaki from Cornell, Prof. Christophe Grojean from CERN, Prof. Erez Etzion from Tel Aviv University of Israel, and Prof. Zoltan Ligeti from UC Berkley participated in this event. The ‘Seeds Program’ took place. This is a program where 20 high school and middle school students aspiring to become physicists were able to attend the work shop without any due fee to experience the world of physicists. The students chosen for the program were able to attend the conference to watch debates of real physicists as well as experience the academic lives of physicists. They were also able to attend the lecture conducted by Prof. Gilad Perez from CERN and were granted question and answer sessions as well. The workshop was hosted by NPKI, and sponsored by Shinla Hotel, BK21 KAIST Physics, department of physics of KAIST, department of physics in Seoul National University, the Advanced Science Institute, and the Center for Quantum Spacetime
2012.04.04
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KAIST placed the 5th in top 50 global universities for international patent applications
New York Times released an article, dated March 19, 2012, on the statistics of international patent applications filed by global universities during 2011, and with 103 applications published, KAIST was listed the fifth among the top 50 universities, right behind four US universities: University of California (277), the Massachusetts Institute of Technology (179), the University of Texas System (127), and Johns Hopkins University (111). A total of seven Korean universities including KAIST made the top 50 list. For the article, please check the link below: New York Times, March 19, 2012 “U.S. Universities Retain Lead in Patent Applications” By Christopher F. Schuetze http://www.nytimes.com/2012/03/19/world/asia/us-universities-retain-lead-in-patent-applications.html In addition, for the press release by the World Intellectual Property Organization, the UN agency responsible for the Patent Cooperation Treaty, on international patent filings in 2011, please click the following link: “International Patent Filings Set new Record in 2011” http://www.wipo.int/pressroom/en/articles/2012/article_0001.html
2012.03.21
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Exhibition of Investment Demonstration on EEWS Research Held
- Five winners of business-planning project exhibition hold exhibition towards thirteen Angel Investors. Venture capital firm and industry investors are investing for themselves on the Green Growth Project of KAIST, which strives for solutions of global issues, such as; energy depletion, environment pollution and sustainable development. KAIST awarded the winner of "EEWS business-planning exhibition competition" and held investment demonstration exhibition. The exhibition is opened by the winners of the competition and held towards the firms and inventors encouraging capital on green business project and green technologies. The venture capital firms that participated in this exhibition were; Coolidge Corner Investment, Dae-Duk Investment Corp, KPM, Locus Capital Partners and Bo-Gwang Investment. The industry investors that participated were: Samsung C&T Corp, Cheil Industry, Dasan Networks, Hanhwa L&C, thirteen companies in total. The goal of EEWS Exhibition is to encourage the commercialization of research and development. It was co-hosted by DFJ Athena LLC and Ilshin ventures. The competition was divided into business planning section and business technology section. Grand prize on green growth went to Professor Joong-Myeon Bae who suggested "Eco-friendly hydrogen fuel cells", runner-up prize went to "Real-time measuring of NOx on Eco-friendly diesels" by Jin-Su Park, the technology director of CIOS. Grand prize of green technology went to "Highly-refractive, heat resisting hybrimer LED sack’ by Byung-Su Bae, professor of new material engineering, participation award went to ‘ITO-Free touch screen for smart phone’ by Min-yang Yang, professor of the department of Mechanical Engineering. A representative of KAIST said those of the firms and investors who have gone through commercialization showed interest on the creativity and the high level of the product. Jae-Kyu Lee, the head of EEWS who supervised the whole exhibition mentioned that, "EEWS Planning Group is consistently going to come up with innovative results” and that “Angel Investors showed enthusiasm. The representatives of Venture capital firm even considered participating as the jury of the competition in the future.” [Definition] EEWS stands for Energy depletion, Environment pollution, Water shortages and Sustainability, a project for the solution of such global issues promoted by KAIST.
2012.03.06
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Annual Future Knowledge Service International Symposium
Knowledge Service Research preparing for the future knowledge based society has been academically publicized. The First Annual Future Knowledge Service International Symposium was held in COEX Grand Ball Room Hall by KAIST’s department of Knowledge Service Engineering. Knowledge Service Engineering is a core component to the future knowledge based society and is the convergent result of decision making, recognition sciences, artificial intelligence, IT, and other knowledge management technologies from each of the industries. Therefore Knowledge Service Engineering will innovate the cooperation and communication between humans and machines thereby forming the center point of the development of knowledge society. The symposium was attended by 9 important figures from domestic and foreign academia, government representative, and key figures from industries. The symposium was based around debates concerning the role of the Knowledge Service Engineering in the future knowledge based society. The key note speaker was Chairman of Korea Science and Technology Information Research Institute Park Young Suh and the theme of the speech was ‘Change in Information Environment and Knowledge Service’. Director of National IT Industry Promotion Agency Kang Hyun Gu gave a lecture on the topic of ‘Important Knowledge Service Policies by National IT Industry Promotion Agency’. And from industry experts, Bradley K. Jensen (Manager of Microsoft Industry-Education Cooperation), Lee Kang Yoon (Research Director at IBM), Choi Yoon Shik (Head of Asia Future Human Resource Institute) proposed a direction for research and gave their account on recent trends of knowledge service from the perspective of onsite experience. Academic experts like Fred D. Davis (Professor at State University of Arkansas), Jussi Kantola (Professor at KAIST), Kim Young Gul (Professor at KAIST Management University), Yoon Wan Chul (Professor at KAIST Knowledge Service Engineering) gave the recent trends in academic research. The symposium was held in 3 sessions: ▲Policy of Korean Government ▲Academic Research Trend ▲Recent Trend and Application. More information can be found at http://kss.kaist.ac.kr
2012.01.31
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KAIST Ph.D Mihyun Jang Employed as Professor at Technische Universitat Graz
A Ph.D purely from Korea has been employed as a professor at Technische Universitat Graz. This is the news of Prof.Mihyun Kang (39) who has graduated from KAIST’s mathematics department. Prof.Kang has transferred on January 2012. KAIST explained that “it’s the first time for a mathematics Ph.D from Korea has been employed abroad.” Technische Universitat Graz of Australia is ranked the top third university within the country. It is a global university with 1,700 students from 78 different countries out of its 11,000 students. Prof. Kang researched mainly theories of combination including random graphing theories, analytical combination theories, and probabilistic combination theories. She has been employed as a lifetime professor through open recruitment where she competed with others through academic debates and interviews. Technische Universitat Graz valued Prof. Kang’s research highly made her the department head of the ‘Optimization and Discrete Mathematics department’ to create an environment where she could continuously research. Prof. Kang graduated from Jeju university majoring math educations and did her graduate studies in KAIST. She is a purely ‘Korean’ Ph.D. After her studies, she worked for Germany’s Humboldt University and Freie Universitat Berlin. In 2007, she was able to be employed as a professor in Germany, and in 2008, she was chosen as a Heisenberg fellow. Prof. Kang who had her research achievements recognized in Germany and Austria was also offered seat as professor in Ludwig Masximilan University of Germany and Alpenadria University in Austria, but chose Technische Universitat Graz.
2012.01.31
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Professor Jang Soon Heung Appointed International Consultant of the Fukushima Nuclear Disaster Task Force
The Japanese government appointed Professor Jang Soon Heung (department of Nuclear and Quantum Engineering) as the International Consultant to the Fukushima Nuclear Disaster Task Force. Professor Hatamura Yotaro of the Tokyo University is the head of the task force and is tasked with finding out the cause and extent of damage of the disaster and minimize social cost and expansion of damage along with prevent a similar disaster from occurring. The International Consultants will independently advise and look over the findings of the task force. The members include: Professor Jang Soon Heung (Professor of KAIST), Richard A. Meserve (Carnegie Research Center Director/Former Chairman of Nuclear Regulatory Commission), Andre-Claude Lacoste (Chairman of French Nuclear Safety Regulatory Commission), and Lars-Eirk Holm (Secretary General of Sweden Health and Welfare).
2012.01.31
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'Scientist-Engineer of the Month' for December: Professor Choi Joon Ho
Professor Choi Joon Ho (department of Biological Sciences) was made ‘Scientist-Engineer of December’ for his discovery of new gene (twenty-four) that helps biorhythm and proving that this gene helps control biorhythm. Professor Choi published 100 dissertations over the past 25 years and made significant advancements in the field of molecular virus and neurobiology. In 1995 Professor Choi uncovered the fact that the NS3 protein in C type hepatitis function as RNA helicase thereby opening the path to developing a cure for C type hepatitis; this is an international patent with Chiron corporation. The result was published in Biochemical and Biophysical Research Communications Journal and was the most domestically referred to dissertation in biological sciences in 1999. In addition Professor Choi published in Nature magazine in 1999, a dissertation that uncovered the fact that the DNA of papillomar virus has another protein (hSNF5) that direct it apart from ordinary proteins. In 2000~2005 Professor Choi published many dissertations in journals like Immunity, Cancer Research, Molecular and Cellular Biology, Oncogene, Journal of Virology, and etc. Professor Choi screened over 10,000 species of pomace fly mutations and discovered the twenty-four gene that affects the biorhythm of pomace flies. He analyzed this gene further and found a new function that was different from known biorhythm mechanisms. This research allowed a better understanding of biological clock of pomace flies and therefore was another step towards better understanding the control mechanism of human biological clock.
2012.01.31
View 8825
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