KAIST ranked 40th in the 2018 QS World University Rankings, one place higher than last year. According to the QS (Quacquarelli Symonds) World’s Top 100 universities released on June 7, KAIST is the second highest ranked Korean university among the five Korean universities listed, following Seoul National University which ranked 36th.
KAIST displayed outstanding performance by ranking 16th in citations per faculty. In the 2018 rankings, universities that are strong in science, technology, and engineering claimed some of the highest positions. MIT topped the list and Caltech took fourth, ETH Zurich seventh, followed by Imperial College London which took eighth.
According to the analysis compiled by QS, universities focusing on science and technology are dominating the global universities rankings. This tendency comes from the fact that engineering schools have an advantage when evaluating the quality of research according to the number of citations per faculty member.
Provost O Ok Park predicts that science and technology will be key players in the Fourth Industrial Revolution era. “In the coming years, universities that excel in multi and interdisciplinary research will lead future growth. KAIST also continues to focus on transdisciplinary education and research,” he said.
<A group photo taken at the 2025 GESS Special Lecture. Vice President So Young Kim from the International Office, VC Jay Eum from GFT Ventures, Professor Byung Chae Jin from the Impact MBA Program at the Business School, and Research Assistant Professor Sooa Lee from the Office of Global Initiative> The “2025 KAIST Global Entrepreneurship Summer School (2025 KAIST GESS),” organized by the Office of Global Initiative of the KAIST International Office (Vice President So
2025-07-01< Photo 1. (From left) Professor Jihan Kim, Ph.D. candidate Yunsung Lim and Dr. Hyunsoo Park of the Department of Chemical and Biomolecular Engineering > In order to help prevent the climate crisis, actively reducing already-emitted CO₂ is essential. Accordingly, direct air capture (DAC) — a technology that directly extracts only CO₂ from the air — is gaining attention. However, effectively capturing pure CO₂ is not easy due to water vapor (H₂O) present in the air. KAIST r
2025-06-29< Photo 1. (From left) Professor John Rogers, Professor Gregg Rothermel, Dr. Sang H. Choi > KAIST announced on June 27th that it has appointed three world-renowned scholars, including Professor John A. Rogers of Northwestern University, USA, as Invited Distinguished Professors in key departments such as Materials Science and Engineering. Professor John A. Rogers (Northwestern University, USA) will be working with the Department of Materials Science and Engineering from July 2025 to J
2025-06-27< (From left) Kyungmin Choi (MS-Ph.D. integrated course, Department of Chemistry), Dr. Beomsoon Park, Professor Soon Hyeok Hong, Dr. Kyoungil Cho > Approximately 1.5 billions of tires are discarded globally every year, and this is identified as one of the major causes of serious environmental pollution. The research team at the Department of Chemistry at KAIST has achieved a breakthrough by selectively converting waste tires into high-purity cyclic alkenes, valuable chemical buildin
2025-06-26< Photo 1. (From left) Professor Steve Park of Materials Science and Engineering, Kyusoon Pak, Ph.D. Candidate (Army Major) > Traditional military training often relies on standardized methods, which has limited the provision of optimized training tailored to individual combatants' characteristics or specific combat situations. To address this, our research team developed an e-textile platform, securing core technology that can reflect the unique traits of individual combatants and
2025-06-25