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On December 18, the National Academy of Engineering of Korea selected the 100 top future technologies that will be the engine growth for Korea in 2025. It also announced experts that will lead the selected technologies. Out of the 238 experts listed, eight professors are from KAIST.
The academy chose technologies based on their potential to be commercialized and contribution to developing related industries in Korea. Giving more weight to young scientists or engineers, it also selected up to three experts who are playing a crucial role in realizing each technology.
Out of 238 experts, 78 of them are from universities, 76 from major enterprises, 65 from public institutions and 19 from SMEs. KAIST is the instituttion that produced the second most experts, follwoing Seoul National University.
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research KAIST Develops Retinal Therapy to Restore Lost Vision
Vision is one of the most crucial human senses, yet over 300 million people worldwide are at risk of vision loss due to various retinal diseases. While recent advancements in retinal disease treatments have successfully slowed disease progression, no effective therapy has been developed to restore already lost vision—until now. KAIST researchers have successfully developed a novel drug to restore vision. < Photo 1. (From left) Ph.D. candidate Museong Kim, Professor Jin Woo Kim, a
2025-03-31 -
research KAIST provides a comprehensive resource on microbial cell factories for sustainable chemical production
In silico analysis of five industrial microorganisms identifies optimal strains and metabolic engineering strategies for producing 235 valuable chemicals Climate change and the depletion of fossil fuels have raised the global need for sustainable chemical production. In response to these environmental challenges, microbial cell factories are gaining attention as eco-friendly platforms for producing chemicals using renewable resources, while metabolic engineering technologies to enhance these
2025-03-27 -
research KAIST Captures Protein Reaction in Just Six Milliseconds
Understanding biological phenomena, including protein-protein interactions and enzyme-substrate reactions occurring in microseconds to milliseconds, is essential for comprehending life processes and advancing drug development. KAIST researchers have developed a method for freezing and analyzing biochemical reaction changes within a span of just a few milliseconds, a critical step towards better understanding these complex biological reactions. < Photo. (From left) Professor Jin Young Kan
2025-03-24 -
research KAIST Develops Eco-Friendly, Nylon-Like Plastic Using Microorganisms
Poly(ester amide) amide is a next-generation material that combines the advantages of PET (polyester) and nylon (polyamide), two widely used plastics. However, it could only be produced from fossil fuels, which posed environmental concerns. Using microorganisms, KAIST researchers have successfully developed a new bio-based plastic to replace conventional plastic. KAIST (represented by President Kwang Hyung Lee) announced on the 20th of March that a research team led by Distinguished Professor
2025-03-24 -
research KAIST Captures Hot Holes: A Breakthrough in Light-to-Electricity Energy Conversion
When light interacts with metallic nanostructures, it instantaneously generates plasmonic hot carriers, which serve as key intermediates for converting optical energy into high-value energy sources such as electricity and chemical energy. Among these, hot holes play a crucial role in enhancing photoelectrochemical reactions. However, they thermally dissipate within picoseconds (trillionths of a second), making practical applications challenging. Now, a Korean research team has successfully devel
2025-03-17