The work by Distinguished Professor Feng Ding at UNIST has been published in the prestigious Science Advances.
Gold, a precious metal, is arguably the most widely used metal across jewelry and coinage due to its physical properties that are unique to the world of metals. Not only is it a good conductor of heat and electricity, it is unaffected by ai... Read More
Their findings have been published in Science Advances on August 26, 2020.
A new nanocatalyst that recycles major greenhouse gases, such as carbon dioxide (CO2) and methane (CH4), into highly value-added hydrogen (H2) gas has been developed. This catalyst is expected to greatly contribute to the development of var... Read More
Their findings have been published in Science Advances on April 3, 2020.
Baseball pitchers throw a variety of pitches, each of which has a slightly different trajectory. This is because each pitch type depends on the degree of interaction with the air flowing around the ball. A recent study, affiliated UNIST has... Read More
Their findings have been published in Science Advances on November 11, 2019.
The stingray, which spends much of their time partially buried on the ocean floor, uses its paired pectoral fins to stabilize their movement through the water and sweep away sandy foreign particles from its surface. A research team, affilia... Read More
Their findings have been published in the online version of Science Advances on November 1, 2019.
Nitrogen doping has emerged as a way to compensate for the shortcomings of graphene, the so-called Dream Material. Through this process, nitrogen is intercalated between carbon layers, which gives the graphene better properties. Besides, wi... Read More
Their work has been published in the January 2018 issue of Science Advances.
A new biosensing contact lens that detects glucose levels in tears.
A team of researchers, affiliated with UNIST has recently introduced a new biosensing contact lens capable of detecting glucose levels in patients with diabetes. This breakthrough has been jointly conducted by Professor Jang-Ung Park in the... Read More
Next generation membrane material for high-power, fast-charging lithium-ion batteries
A major study of advanced membranes for energy applications by researchers at UNIST introduced a revolutionary separator membrane for high-performance rechargeable batteries that are fast-charging, long-lasting, and inexpensive. The finding... Read More