Reuters News released a list of the World’s Top 100 Most Innovative Universities on September 15, 2015.
Nine of the top ten universities on the list were American institutions. KAIST took tenth place, the only non-American and Asian university to do so.
Stanford University ranked first, followed by the Massachusetts Institute of Technology (MIT) in second, and Harvard University in third.
The inaugural Reuters Top 100 survey based its rankings on ten criteria: patent volume, patent successes, global patents, patent citations, patent citation impact, percent of patents cited, patent to article citation impact, industry article citation impact, percent of industry collaborative articles, and the total number of science papers.
Japan had nine universities in the survey, more than all countries except for the United States. South Korea has a total of eight universities on the list including Pohang University of Science and Technology, Seoul National University, Yonsei University, and Hanyang University.
For the full details of the survey, see
http://www.reuters.com/article/2015/09/15/idUSL1N11K16Q20150915.
<(From left)Dr. Keungmo Yang, Professor Won-Il Jeong, Ph.D candidate Kyurae Kim> Excessive alcohol consumption causes alcoholic liver disease, and about 20% of these cases progress to alcohol-associated steatohepatitis (ASH), which can lead to liver cirrhosis and liver failure. Early diagnosis and treatment are therefore extremely important. A KAIST research team has identified a new molecular mechanism in which alcohol-damaged liver cells increase reactive oxygen species (ROS), leading
2025-07-17<(From left) Dr. Dongjo Yoon, Professor Je-Kyun Park from the Department of Bio and Brain Engineering, (upper right) Professor Yoonkey Nam, Dr. Soo Jee Kim> Existing three-dimensional (3D) neuronal culture technology has limitations in brain research due to the difficulty of precisely replicating the brain's complex multilayered structure and the lack of a platform that can simultaneously analyze both structure and function. A KAIST research team has successfully developed an integrated
2025-07-16<(From left) Ph.D candidate See-On Park, Professor Jongwon Lee, and Professor Shinhyun Choi> In the midst of the co-development of artificial intelligence and robotic advancements, developing technologies that enable robots to efficiently perceive and respond to their surroundings like humans has become a crucial task. In this context, Korean researchers are gaining attention for newly implementing an artificial sensory nervous system that mimics the sensory nervous system of living org
2025-07-16<(From Left) Ph.D. Candidate Hyunmin Eun, Distinguished Professor Sang Yup Lee, , Dr. Cindy Pricilia Surya Prabowo> The application of systems metabolic engineering strategies, along with the construction of an electron channeling system, has enabled the first gram-per-liter scale production of lutein from Corynebacterium glutamicum, providing a viable alternative to plant-derived lutein production. A research group at KAIST has successfully engineered a microbial strain capable o
2025-07-14<Picture1.(From Left) Prof. Seungbum Hong, Ph.D candidate Youngwoo Choi> Steel alloys used in automobiles and machinery parts are typically manufactured through a melting process at high temperatures. The phenomenon where the components remain unchanged during melting is called “congruent melting.” KAIST researchers have now addressed this process—traditionally only possible through high-temperature experiments—using artificial intelligence (AI). This study dra
2025-07-14