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New Study Presents Efficient, Solution‐proce..
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Super-resolution at All Scales with Active Thermal Detection
The work by Distinguished Professor François Amblard's team has been published in Nature Communications.
An international team of researchers, affiliated with UNIST, has unveiled a new concept of super-resolved detection and imaging, applicable to microscopy, RADAR,LIDAR, and more. This breakthrough has been led by Distinguished Professor Fran... Read More
Novel Sponge-like 2D Material with Interesting Electrical Conductivity and Magnetic Properties
Their findings have been published in the Journal of the American Chemical Society (IF: 14.695) on November 14, 2019.
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
Slip Layer Dynamics Reveal Why Some Fluids Flow Faster Than Expected
Their findings have been published in PNAS on July 31, 2019.
New microscopy technique provides unprecedented insight into nanoscopic slip layers formed in flowing complex liquids.
Whether it is oil gushing through pipelines or blood circulating through arteries, how liquids flow through tubes is perhaps the most fundamental problem in hydrodynamics. The challenge is to maximize transport efficiency by minimizing the... Read More
An Effective Sweeper Closes DNA Replication Cycling
Their findings have been published in Nature Communications June 3, 2019.
DNA replication is essential for living organisms to faithfully deliver genetic information from parental cells to daughter cells. Many proteins are assembled on the parental DNA to work as replication machineries. Among them, the prolifera... Read More
Droplet Trains Reveal How Nature Navigates Blood Traffic
The work by Distinguished Professor Bartosz A. Grzybowski has been appeared in Nature Physics on April 23, 2019.
Nearing a decision point, online traffic maps recommend a less-crowded route over the other ways with several slow spots. For most of us, the choice seems clear. Still, have you ever wondered whether this collectively preferring one path ma... Read More
New Study Introduces Templated Heating of Carbon with Graphene for High Quality Graphite
The work by Distinguished Rodney S. Ruoff and his research group at IBS CMCM has been published in Materials Horizons.
An international team of researchers, affiliated with UNIST has announced that they have discovered a pressure-free approach for creating synthetic graphite with well-oriented crystallites. This study has been led by Distinguished Professor... Read More
New Study Reveals Metastatic Cancer Cells Exhibit Predatory Behavior of Animals
Their findings have been published in the latest issue of Nature Communications.
In searching for sparsely distributed food, animal predators maximize their chances of success by adopting a special movement pattern composed of many small steps interspersed with infrequent, but long strides towards new hunting grounds. T... Read More
New Method to Produce Defectless Metal Crystals of Unprecedented Size
The work by Distinguished Professor Rodney S. Ruoff has been published in Science on October 19. 2018.
An international team of researchers, affiliated with UNIST has introduced a new method to convert inexpensive polycrystalline metal foils to single crystals with superior properties. Published in the online edition of Science on October 19... Read More
UNIST Faculty Member Named as Potential Nobel Prize Winner
Distinguished Professor Rodney S. Ruoff named among '2018 Citation Laureates' by Clarivate Analytics.
Rodney S. Ruoff, Director of the Center for Multidimensional Carbon Materials (CMCM) at the Institute for Basic Science (IBS) and Distinguished Professor in the School of Natural Science at UNIST, was selected to the 2018 hall of Citation L... Read More
Heavy Water Shields Dancing Molecules During Electron Microscopy
The work by Distinguished Professor Steve Granick and Professor Oh-Hoon Kwon has been published in ACS Nano.
Since life is mostly based on water, our molecules are moving, vibrating and somersaulting in a liquid environment. But electron microscopy—a technique to study a static version of this nano world—has been almost impossible to use to see mo... Read More
