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A research paper by Professor Myung-Chul Choi reviewed in Science (February 28, 2014)
A research paper entitled “Transformation of taxol-stabilized microtubules into inverted tubulin tubules triggered by a tubulin conformation switch” was published in
Nature Materials
this year, dated January 19, 2014.
Professor Myung-Chul Choi and Dr. Chae-Yeon Song from the Department of Bio and Brain Engineering at KAIST co-authored the paper together with researchers from the University of California in Santa Barbara and the Hebrew University of Jerusalem.
Science,
dated February 28, 2014, has recently reviewed the paper in its section called "Perspectives."
2014.03.13 View 9134 -
Visit by Sir Paul Maxime Nurse, President of the Royal Society
Sir Paul Maxime
Nurse, who is an English geneticist and cell biologist, visited KAIST and gave
a lecture entitled The Great Ideas of
Biology on March 11, 2014.
Sir Paul was awarded the 2001 Nobel Prize in
Physiology or Medicine with Leland H. Hartwell and R. Timothy Hunt for their discoveries
of protein molecules that control the division of cells in the cell cycle.
He was Professor of Microbiology at the University
of Oxford, CEO of the Imperial Cancer Research Fund and Cancer Research UK, and
President of Rockefeller University in New York. Sir Paul is currently the President of
the Royal Society as well as Director and Chief Executive of the Francis Crick
Institute.
Founded in London in 1660, the Royal Society is composed of the world’s most distinguished scientists drawn from all areas of
science, engineering, and medicine.
Below is a summary of his lecture, The Great Ideas of Biology:
Four major ideas of biology
are the theory of genes, evolution by natural selection, the proposal that the
cell is the fundamental unit of all life, and the chemical composition of a cell.
When considering the
question “what is life?” these ideas come together. The special way cells reproduce
provides the conditions by which natural selection takes place, allowing living
organisms to evolve. The organization of chemistry within the cell provides
explanations for life’s phenomena.
In addition, an emerging idea
is the nature of biological self-organization with which living cells and organisms
process information and acquire specific forms. These great ideas have
influenced one another and changed the way we perceive biology and science
today.
2014.03.11 View 10876 -
Seo-Eun Lee, an undergaruate student receives the Best Paper Award from Optical Society of Korea
Seo-Eun Lee, a student studying at KAIST’s Department of Biological Sciences, has won the Best Paper Award from Bio-Photonics Division at the 2014 Optical Society of Korea Winter Conference, held on 19th February at Daejeon Convention Center.
Only one outstanding paper per division is given an award among the total of 270 papers, and it is very unusual for an undergraduate student to win the award in the field that is not her major.
Lee has studied cell imaging using holography technology since June 2013 under the supervision of Professor Yong-Geun Park from the Department of Physics.
The Optical Society of Korea was founded in 1989, and as the largest academy in the field of optics in Korea, it holds academic presentations, seminars and lectures every year.
2014.03.06 View 10328 -
Spillover Phenomenon Identified Using Model Catalyst System
Researchers at KAIST have identified spillover phenomenon, which has remained controversial since its discovery in the early 1960s.
KAIST Department of Chemical and Biomolecular Engineering’s Professor Min-Gi Choi and his team has explained the "spillover phenomenon," using their own model catalyst system where platinum is selectively located within the amorphous aluminosilicate.
The research results were published on the 25th February online edition of Nature Communications.
Spillover refers to a phenomenon that occurs when hydrogen atoms that have been activated on the surface of metals, such as platinum, move to the surface of the catalyst. It was predicted that this phenomenon can be used to design a catalyst with high activity and stability, and thus has been actively studied over the last 50 years.
However, many cases of the known catalysts involved competing reactions on the exposed metal surface, which made it impossible to directly identify the presence and formation mechanism of spillover.
The catalysts developed by the researchers at KAIST used platinum nanoparticles covered with aluminosilicate. This only allowed the hydrogen molecules to pass through and has effectively blocked the competing reactions, enabling the research team to study the spillover phenomenon.
Through various catalyst structure and reactivity analysis, as well as computer modeling, the team has discovered that Brönsted acid sites present on the aluminosilicate plays a crucial role in spillover phenomenon.
In addition, the spillover-based hydrogenation catalyst proposed by the research team showed very high hydrogenation and dehydrogenation activity. The ability of the catalyst to significantly inhibit unwanted hydrogenolysis reaction during the petrochemical processes also suggested a large industrial potential.
Professor Min-Gi Choi said, “This particular catalyst, which can trigger the reaction only by spillover phenomenon, can be properly designed to exceed the capacity of the conventional metal catalysts. The future goal is to make a catalyst with much higher activity and selectivity.”
The research was conducted through funds subsidized by SK Innovation and Ministry of Science, ICT and Future Planning.
The senior research fellow of SK Innovation Seung-Hun Oh said, “SK Innovation will continue to develop a new commercial catalyst based on the technology from this research.”
Juh-Wan Lim and Hye-Yeong Shin led the research as joint first authors under supervision of Professor Min-Gi Choi and computer modeling works were conducted by KAIST EEWS (environment, energy, water, and sustainability) graduate school’s Professor Hyeong-Jun Kim.
2014.03.03 View 10570 -
Quacquarelli Symonds (QS) World University Rankings by Subject 2014
The QS
World University Rankings are annual university rankings published by
Quacquarelli Symonds (QS) which provides the overall rankings of top global
universities as well as the rankings for individual subjects. The 2014 QS World
University Rankings by Subject is a comprehensive guide to the world’s best universities
in 30 popular subjects of 5 academic disciplines: arts & humanities,
engineering & technology, life sciences & medicine, natural sciences,
and social sciences.
According
to the 2014 subject rankings, released on February 26, KAIST made the list of top
50 universities in 9 subjects: physics & astronomy; materials sciences;
chemistry; chemical engineering; mechanical, aeronautical & manufacturing
engineering; electrical & electronic engineering; civil & structural engineering;
computer science & information systems; and biological sciences.
Among
them, KAIST was ranked number one in Korea for 5 subjects: materials sciences
(16th); mechanical, aeronautical & manufacturing engineering (21st);
civil & structural engineering (32nd); computer science &
information systems (36th), and biological sciences (43rd).
For basic sciences, KAIST has made good progress as well. For example, in
mathematics, KAIST took first place in Korea and was ranked in the 51st-100th
of the world’s top universities. Another notable result was that its business college
in Seoul campus, a relatively new addition to KAIST, made the rankings list of
51st-100th in accounting & finance.
The 2014
QS subject rankings used the following criteria for its evaluation of
university performance: a survey of academic and employer reputation, citations
per paper, inclusion of specialists, and the h-index, known as the Hirsch index or Hirsch number, which was
suggested by Jorge E. Hirsch, a physicist at the University of California in
San Diego, as a tool for determining theoretical physicists’ relative quality.
Today, the h-index is used to measure
both the productivity and impact of the published work of a scientist or
scholar.
2014.02.28 View 11245 -
KAIST held its 2014 Commencement Ceremony
The KAIST Commencement Ceremony for 2014 was held on Friday, 21st February, at Sports Complex, KAIST.
On this day, a total of 2,619 students
received their degrees. This included 499 doctorates, 1,220 masters, and 900 students with bachelor’s degrees. Since its establishment in 1971,
KAIST has produced 9,881 Ph.D., 25,161 MA and 13,693 BA,
which amounts to 48,735 scientific and engineering personnel.
The former Minister for Science and Technology
of the Republic of Korea, Dr. KunMo Chung, received an honorary doctorate for his effort in establishing the Korea Advanced Institute of Science (KAIS) to foster talented scientists and engineers, thus contributing to the significant growth
of Korea that has led it to stand as a scientifically advanced nation today.
The student graduating with summa cum laude was Jang-Geun
Kim from the Department of Biological Sciences. Mr. Kim received the Minister of Science, ICT and
Future Planning Award.
Mr. Kim said, “I am honored to receive the
award from the minister. I hope a lot of talented students will go onto science and
engineering field, so that Korea can earn a place among the technologically
elite countries.” Jang-Geun Kim will continue his
study of genomic medicine at KAIST graduate school.
President Steve Kang spoke
to the graduates:
“The whole nation has given their wholehearted support to KAIST so that students can study in a good environment. Please have
great aspirations and hopes, and continue to
broaden your knowledge and solve the challenges that humanity is facing today,
so our country and the world can advance.”
2014.02.27 View 9430 -
Phys.org: Researchers develop non-iridescent, structural, full-spectrum pigments for reflective displays
The latest research work by Professor Shin-Hyun Kim of Chemical and Biomolecular Engineering at KAIST on the “microcapsulation og photonic crystals using osmotic pressure” has been published by Phys.org, a leading web-based science, research and technology news. For the articles, please click the link below:February 20, 2014Researchers develop non-iridescent, structural, full-spectrum pigments for reflective displayshttp://phys.org/news/2014-02-non-iridescent-full-spectrum-pigments.html
2014.02.21 View 8496 -
A Molecular Switch Controlling Self-Assembly of Protein Nanotubes Discovered
International collaborative research among South Korea, United States, and Israel research institutionsThe key to the treatment of cancer and brain disease mechanism The molecular switch that controls the self-assembly structure of the protein nanotubes, which plays crucial role in cell division and intracellular transport of materials, has been discovered. KAIST Bio and Brain Engineering Department’s Professor Myeong-Cheol Choi and Professor Chae-Yeon Song conducted the research, in collaboration with the University of California in Santa Barbara, U.S., and Hebrew University in Israel. The findings of the research were published in Nature Materials on the 19th. Microtubules are tube shaped and composed of protein that plays a key role in cell division, cytoskeleton, and intercellular material transport and is only 25nm in diameter (1/100,000 thickness of a human hair). Conventionally, cancer treatment focused on disrupting the formation of microtubules to suppress the division of cancer cells. In addition Alzheimer’s is known to be caused by the diminishing of structural integrity of microtubules responsible for intercellular material transport which leads to failure in signal transfer. The research team utilized synchrotron x-ray scattering and transmission electron microscope to analyze the self assemble structure of protein nanotubes to subnanometer accuracy. As a result, the microtubules were found to assemble into 25nm thickness tubules by stacking protein blocks 4 x 5 x 8nm in dimension. In the process, the research team discovered the molecular switch that controls the shape of these protein blocks. In addition the research team was successful in creating a new protein tube structure. Professor Choi commented that they were successful in introducing a new paradigm that suggests the possibility of controlling the complex biological functions of human’s biological system with the simple use of physical principles. He commented further that it is anticipated that the findings will allow for the application of bio nanotubes in engineering and that this is a small step in finding the mechanism behind cancer treatment and neural diseases.
2014.02.03 View 10812 -
2013 KAIST Alumni of the Year Awarded
The KAIST Alumni Association announced four winners as the 2013 KAIST Alumni of the Year. From left to right, recipients were Nam-Sung Woo, President of Samsung Electronics; Seok-Kyun Noh, President of Yeungnam University; Kwang-Hyung Lee, Professor at KAIST; and Kyung-Guk Lee, CEO of TV Logic.The award ceremony was held during a New Year’s ceremony, sponsored by the Alumni Association, on January 18 at the Palace Hotel in Seoul.President Woo, entering class of ’75 for masters in electrical engineering, was recognized for his devotion to the development of semiconductor industry including expansion of the mobile Central Processing Unit (CPU) business as well as his contribution to national industry development through improving technology for System on Chip (SoC) products.President Noh, entering class of ‘77 for masters in chemistry, was recognized for his devotion to education and the development of science and technology as the co-president of the Promotion Proclamation of the Citizens’ Coalition for Scientific Society and as the head of Human Resources Development for Brain Korea 21 (BK21).Professor Lee, entering class of ’78 for masters in industrial engineering, has been a leader in the collaboration of education and science through founding the Department of Bio & Brain Engineering and the Graduate School of Future Strategy at KAIST. His active support for business ideas from labs has helped produce ventures such as Nexon and IDIS. President Lee, entering class of ’82 for masters in electrical engineering, contributed to the development of HD broadcasting monitors and related items by founding TV Logic. He was also recognized for his devotion to the alumni association.The Alumni Association has been selecting winners who have contributed to society and remain devoted to KAIST since 1992.
2014.01.29 View 7610 -
Professor Yoon-Key Nam Received the 2013 Emerging Scholars Award
Professor Yoon-Key Nam, the Department of Bio and Brain Engineering at KAIST, received the 2013 Emerging Scholars Award from the Korean BioChip Society (KBCS), an organization consisted of professionals and researchers in the biochip field such as proteomics, functional genomics, Bio-MEMS, nanotechnology, biosensors, and bioinformatics, at the fall annual conference of KBCS held on November 13th, 2013 at Kangwon National University in Korea.
Professor Nam was recognized for his development of neuron-on-a-chip technology through the convergence research of neuroscience and biochip.
Since 2008, the KBCS has been giving an award to one or two scholars under 40 years of age who have made a great stride in biochip research.
2014.01.27 View 8411 -
KAIST Participates in the 2014 Davos Forum on January 22-25 in Switzerland
Through the sessions of the Global University Leaders Forum, IdeasLab, and Global Agenda Councils on Biotechnology, KAIST participants will actively engage with global leaders in the discussion of issues on education innovation and technological breakthroughs.
The 2014 Annual Meeting of the World Economic Forum (WEF), known as the Davos Forum, will kick off on January 22-25 in Davos-Klosters, Switzerland, under the theme of "The Reshaping of the World: Consequences for Society, Politics, and Business." Each year, the Forum attracts about 2,500 distinguished leaders from all around the world and provides an open platform to identify the current and emerging challenges facing the global community and to develop ideas and actions necessary to respond to such challenges.
President Sung-Mo Steve Kang and Distinguished Professor Sang Yup Lee from the Department of Chemical and Biomolecular Engineering, KAIST, will attend the Forum and engage in a series of dialogues on such issues as Massive Open Online Courses, new paradigms for universities and researchers, the transformation of higher education, the role and value of scientific discoveries, and the impact of biotechnology on the future of society and business.
At the session entitled "New Paradigms for Universities of the Future" hosted by the Global University Leaders Forum (GULF), President Kang will introduce KAIST"s ongoing online education program, Education 3.0. GULF was created in 2006 by WEF, which is a small community of the presidents and senior representatives of the top universities in the world.
Implemented in 2012, Education 3.0 incorporates advanced information and communications technology (ICT) to offer students and teachers a learner-based, team-oriented learning and teaching environment. Under Education 3.0, students study online and meet in groups with a professor for in-depth discussions, collaboration, and problem-solving. KAIST plans to expand the program to embrace the global community in earnest by establishing Education 3.0 Global in order to have interactive real-time classes for students and researchers across regions and cultures.
President Kang will also present a paper entitled "Toward Socially Responsible Technology: KAIST"s Approach to Integrating Social and Behavioral Perspectives into Technology Development" at another session of GULF called "Seeking New Approaches to Critical Global Challenges." In the paper, President Kang points out that notwithstanding the many benefits we enjoy from the increasingly interconnected world, digital media may pose a threat to become a new outlet for social problems, for example, Internet or digital addiction.
Experts say that early exposure to digital devices harms the healthy development of cognitive functions, emotions, and social behavior. President Kang will introduce KAIST"s recent endeavor to develop a non-intrusive technology to help prevent digital addiction, which will ultimately be embedded in the form of a virtual coach or mentor that helps and guides people under risk to make constructive use of digital devices. President Kang stresses the fundamental shift in the science and technology development paradigm from research and development (R&D) to a research and solution development (R&SD), taking serious consideration of societal needs, quality of life, and social impacts when conducting research.
Professor Sang Yup Lee will moderate the IdeasLab session at the Davos Forum entitled "From Lab to Life with the California Institute of Technology (Caltech)." Together with scientists from Caltech, he will discuss scientific breakthroughs that transform institutions, industries, and individuals in the near future, such as the development of damage-tolerant lightweight materials with nanotechnology, the ability to read and write genomes, and wireless lab-in-the-body monitors. In addition, he will meet global business leaders at the session of "Sustainability, Innovation, and Growth" and speak about how emerging technologies, biotechnology in particular, will transform future societies, business, and industries.
As a current special adviser of the World Economic Forum"s (WEF) Chemicals Industry Community, Professor Lee will meet global chairs and chief executive officers of chemical companies and discuss ways to advance the industry to become more bio-based and environmentally friendly. He served as a founding chairman of WEF"s Global Agenda Councils on Biotechnology in 2013.
President Sung-Mo Steve Kang Distinguished Professor Sang Yup Lee
2014.01.17 View 11349 -
KAIST receives $20 million donation for futures studies
A retired businessman, Moon-Soul Chung, the former chief executive officer of Mirae, Inc., a semiconductor equipment company in Korea, today donated USD 20 million to the Graduate School of Future Strategy at KAIST.
It was Chung's second contribution to KAIST—his first donation of USD 28 million in 2001 supported the construction of the Bio and Brain Engineering building, a major research center on campus where biotechnology and information technology converge.
Established in 2013, the KAIST Graduate School of Future Strategy consists of three interdisciplinary graduate programs on future strategy, intellectual property, and science journalism. The Research Center for Future Strategy is an affiliate of the graduate school. KAIST is the first Korean university that offers an academic program granting a degree in futures studies.
The rapid advancement in science and technology today affects, profoundly and extensively, all corners of global society from education, politics, economy, and environment to resources, sustainability, and inequality. As we live in a highly interconnected, digitalized, and unpredictable world, analyzing the events, trends, patterns, and changes of the past and present, developing foresight, and mapping preferred futures have become more relevant than ever.
KAIST utilizes its strong tech-knowledge base in science and engineering to offer students a high quality education and training in futures thinking, skills, and methodologies to develop foresight and to plan future strategies for international relations, business and industry, national defense, science and technology, and new media. KAIST also anticipates helping government, business, public service, and non-profit organizations identify important issues and develop long-range implementation strategies to prepare for probable and preferred futures.
Moon-Soul Chung (left), the former CEO of Mirae Inc., and President Steve Kang (right), holding together the donation agreement in Seoul, January 10th, 2014
2014.01.13 View 8742