Abstract Over the past decade, lithium metal has been considered the most attractive anode material for high-energy-density batteries. However, its practical application has been hindered by its high reactivity with organic electrolytes and... Read More
Abstract The shaping of matter into desired nanometric structures with on-demand functionalities can enhance the miniaturization of devices in nanotechnology. Herein, strong light–matter interaction was used as an optical lithographic tool... Read More
A research team, led by Professor Ju-Young Kim in the Department of Materials Science and Engineering at UNIST has reported the self-healing ability of nanoporous gold (np-Au) with nanoscale ligaments under ambient conditions. The research... Read More
Lithium (Li) and sodium (Na) metal have attracted great attention as ideal anode materials in high density battery applications owing to their higher theoretical capacities. Many efforts have been made to improve the performance of anodes m... Read More
A recent study, including researchers with UNIST has presented a new perovskite light-emitting diodes (PeLEDs) with high flexibility. Thanks to their invention, we will soon achieve the industry’s long-standing goal of delivering a fo... Read More
Prof. Ju-Young Kim (School of Materials Science and Engineering)’s research team developed an ultralight nanoporous gold with high strength. This newly developed material is twice more solid than a regular gold and it is 30% lighter.... Read More
A team of Korean researchers, affiliated with UNIST has recently pioneered in developing a new simple nanowire manufacturing technique that uses self-catalytic growth process assisted by thermal decomposition of natural gas. According to th... Read More
Gi Hwan Kim, a doctoral graduate of the School of Energy and Chemical Engineering of UNIST, has been designated as a national merit in recognition of his significant contribution to the 2015 Energy International Joint Research Project. Dr.... Read More
On July 15, a team of reseachers at UNIST, led by Prof. Sang-Young Lee have discovered a new class of printable solid-state Lithium-ion batteries (as referred as PRISS Batteries) that can exist on almost any surface. According to the resear... Read More
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