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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
New Pathway to Enhance the Resolution of Virtually All Optical Technologies
The work by Distinguished Professor François Amblard's team has been published in PNAS.
An international team of researchers, affiliated with UNIST has announced that they have discovered a new property of wave propagation that leads to an all-new way to improve the resolution of virtually all optical technologies, including m... Read More
Novel Method to Determine Mechanical Stiffness and Strength of Centimeter-Scale Atom Thick Graphene
The work by Distinguished Professor Rodney S. Ruoff has been published in the May issue of Advanced Materials.
An international team of researchers, affiliated with UNIST has announced that they have succeeded in measuring the tensile strength of centimetre-scale monolayer graphene for the first time, using camphor as a naturally-volatilizing suppor... Read More
New Study Presents Model to Explain How Evolution Can Shape Flexible, Functional Proteins
The work by Professor Tlusty has been published in the May issue of PNAS.
Researchers have designed a model to explain how evolution can shape flexible, functional proteins.
An international team, affiliated with UNIST has designed a model that simulates protein evolution. Starting from stiff, unfunctional proteins, the computer model shows how evolving protein components can work together to give rise to dynam... Read More
New Study Reveals Fast Growth of Highly-Oriented Monolayer Graphene on a Cu/Ni(111) Alloy Foil
Their findings have been published in ACS Nano on May 23, 2018.
An international research team, affiliated with UNIST announced that they had succeeded in achieving the fast growth of near single crystal monolayer graphene on homemade single crystal Cu/Ni(111) metal foils. The result has greatly acceler... Read More
Spinning Cylinders to Recreate Nature’s Patterns
Recent work by Professor Bartosz Grzybowski has been published in the November issue of Advanced Materials.
New method to create dynamic tubular structures, inspired by leaves around a stem, scales on pine cone, and viruses’ tails.
Some of nature’s most exquisite patterns; leaves around a plant’s stem, scales on a pine cone, and the tail of some viruses, consist of small objects decorating a cylindrical chassis with a specific pattern. Nature’s preferred method of bui... Read More
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