event
< Director Steve Ahn (Right) >
Steve Ahn, the Director of Startup KAIST, donated one hundred million KRW of development fund to his alma mater KAIST to increase entrepreneurship opportunities and nourish start-up culture on campus. Professor Ahn founded Leadis Technology Inc. in 2000, a fabless semiconductor company based in Silicon Valley that develops mobile phone sub-display applications. Leadis Technology Inc. made its stock market debut on the NASDAQ in 2004.
“KAIST produces many start-ups, however, entrepreneurial culture has yet to become a growth engine of KAIST, compared to education and research. Through invigorating entrepreneurial spirit and revitalizing start-up activities, KAIST should reclaim its leadership role in creating decent jobs and fuelling economic growth and competitiveness at home and abroad,” he said during the donation ceremony last month.
He added, “I am forever grateful to my alma mater KAIST for having provided me with a quality education. It was a valuable asset that helped me gain an opportunity to nurture the up-and-coming, next-generation scholars as a professor at KAIST. I decided to make this donation hoping that KAIST students will be given more entrepreneurship opportunities, and a healthy start-up ecosystem will be accelerated beyond KAIST.”
Director Ahn earned his bachelor’s degree in metallurgy from Seoul National University, followed by a master’s degree in materials engineering from KAIST. He received another master's degree in electrical engineering, and was granted a doctorate in materials engineering from Stanford University.
He has been mentoring start-up activities at Startup KAIST since 2014, and serving as the principal professor at K-School since 2016. From these activities, he was recognized for his academic achievements and committed leadership, which led him to be appointed as the Director of Startup KAIST in March 2019.
(END)
-
research KAIST Develops Sodium Battery Capable of Rapid Charging in Just a Few Seconds
Sodium (Na), which is over 500 times more abundant than lithium (Li), has recently garnered significant attention for its potential in sodium-ion battery technologies. However, existing sodium-ion batteries face fundamental limitations, including lower power output, constrained storage properties, and longer charging times, necessitating the development of next-generation energy storage materials. On the 11th of April, KAIST (represented by President Kwang Hyung Lee) announced that a research t
2024-04-18 -
research KAIST introduces microbial food as a strategy food production of the future
The global food crisis is increasing due to rapid population growth and declining food productivity to climate change. Moreover, today's food production and supply system emit a huge amount of carbon dioxide, reaching 30% of the total amount emitted by humanity, aggravating climate change. Sustainable and nutritious microbial food is attracting attention as a key to overcoming this impasse. KAIST (President Kwang Hyung Lee) announced on April 12th that Research Professor Kyeong Rok Choi of th
2024-04-12 -
research KAIST researchers developed a novel ultra-low power memory for neuromorphic computing
A team of Korean researchers is making headlines by developing a new memory device that can be used to replace existing memory or used in implementing neuromorphic computing for next-generation artificial intelligence hardware for its low processing costs and its ultra-low power consumption. KAIST (President Kwang-Hyung Lee) announced on April 4th that Professor Shinhyun Choi's research team in the School of Electrical Engineering has developed a next-generation phase change memory* device fe
2024-04-04 -
research A KAIST-SNUH Team Devises a Way to Make Mathematical Predictions to find Metabolites Related to Somatic Mutations in Cancers
Cancer is characterized by abnormal metabolic processes different from those of normal cells. Therefore, cancer metabolism has been extensively studied to develop effective diagnosis and treatment strategies. Notable achievements of cancer metabolism studies include the discovery of oncometabolites* and the approval of anticancer drugs by the U.S. Food and Drug Administration (FDA) that target enzymes associated with oncometabolites. Approved anticancer drugs such as ‘Tibsovo (active ingre
2024-03-18 -
research KAIST Develops Healthcare Device Tracking Chronic Diabetic Wounds
A KAIST research team has developed an effective wireless system that monitors the wound healing process by tracking the spatiotemporal temperature changes and heat transfer characteristics of damaged areas such as diabetic wounds. On the 5th of March, KAIST (represented by President Kwang Hyung Lee) announced that the research team led by Professor Kyeongha Kwon from KAIST’s School of Electrical Engineering, in association with Chung-Ang University professor Hanjun Ryu, developed digit
2024-03-11