Abstract Developing a direct carbon dioxide (CO2) capture and methanation method is one of the most important challenges to achieving carbon neutrality. However, converting CO2 into methane (CH4) kinetically requires the activation of stabl... Read More
High-quality graphite has excellent mechanical strength, thermal stability, high flexibility and very high in-plane thermal and electric conductivities and, thus, is one of most important advanced materials for many applications, such as be... Read More
An international team of researchers, led by Distinguished Professor Rodney S. Ruoff (School of Natural Science) from the Center for Multidimensional Carbon Materials (CMCM), within the Institute for Basic Science (IBS) at UNIST, has report... Read More
Can two layers of the “king of the wonder materials,” i.e. graphene, be linked and converted to the thinnest diamond-like material, the “king of the crystals”? An international team of researchers, affiliated with UN... Read More
UNIST scientists have developed an exiting new catalyst that can split water into hydrogen almost as good as platinum, but less costly and found frequently on Earth. As described in the journal Nature Nanotechnology, this ruthenium (Ru)-bas... Read More
At the invitation of UNIST, Dr. Alberto Moscatelli, one of the Senior Editors of the widely respected Nature Publishing Group journal visited UNIST on the morning of April 29, 2016. During his visit to UNIST, Dr. Moscatelli of Nature Nanote... Read More
On March 24, a team of 9 researchers announced that they have successfully developed a technology to provide a new direction for the fabrication of graphene nanoribbons with zigzag-edged directions. This study is a collaboration among resea... Read More
![[UNIST Webinar] AI enabled Computational Imaging for Biomedical Applications](https://news.unist.ac.kr/wp-content/uploads/2022/10/Session-13.18-296x166.jpg)