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Home CMCM

New Study Unveils the Path to Build Diamonds at Ambient Pressure

Scientists develop novel liquid metal alloy system to synthesize diamond under moderate conditions.

New Study Unveils the Path to Build Diamonds at Ambient Pressure

Did you know that 99% of synthetic diamonds are currently produced using high-pressure and high-temperature (HPHT) methods? A prevailing paradigm is that diamonds can only be grown using liquid metal catalysts in the gigapascal pressure ran... Read More

Apr 25, 2024 By JooHyeon Heo Research
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New Study Introduces the Best Graphite Films

The work by Distinguished Professor Feng Ding at UNIST has been published in the October 2022 issue of Nat. Nanotechnol.

New Study Introduces the Best Graphite Films

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

Nov 01, 2022 By JooHyeon Heo Research
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New Study Unveils Why Gold (111) Surface Forms the Herringbone Texture

The work by Distinguished Professor Feng Ding at UNIST has been published in the prestigious Science Advances.

New Study Unveils Why Gold (111) Surface Forms the Herringbone Texture

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

Oct 08, 2022 By JooHyeon Heo Research
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New Mode of Materials Growth, “Spiral Growth Graphene” Has Been Discovered

The work by Distinguished Professor Feng Ding from IBS CMCM at UNIST has been appeared in Advanced Materials on January 19, 2022.

New Mode of Materials Growth, “Spiral Growth Graphene” Has Been Discovered

In history, the synthesis of key materials, such as bronze, steel, polymer, and silicon, represents the most advanced technology of human society. Until now, the discovery of a new material and the development of materials highly depends on... Read More

May 02, 2022 By JooHyeon Heo Research
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An Ultimate One-dimensional Electronic Channel In Hexagonal Boron nitride

Their findings have been published in Science Advances on March 6, 2020.

A zero bandgap boundary discovered in insulating hexagonal boron nitride sheets with could pave the way for new nano-electronic devices.

An Ultimate One-dimensional Electronic Channel In Hexagonal Boron nitride

In the field of 2D electronics, the norm used to be that graphene is the main protagonist and hexagonal boron nitride (hBN) is its insulating passive support. An international team of researchers, affiliated with UNIST, has made a discovery... Read More

Mar 11, 2020 By Dahee Carol Kim Research
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A Tech Jewel: Converting Graphene into Diamond Film

The work by Distinguished Professor Rodney S. Ruoff has been published in Nature Nanotechnology on December 10, 2019.

Synthesis of the thinnest possible diamond-like material starting from bilayer graphene and without high pressure.

A Tech Jewel: Converting Graphene into Diamond Film

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

Dec 10, 2019 By Dahee Carol Kim Research
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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.

Novel Sponge-like 2D Material with Interesting Electrical Conductivity and Magnetic Properties

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

Nov 07, 2019 By Dahee Carol Kim Research
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UNIST Faculty Member Named as Potential Nobel Prize Winner

Distinguished Professor Rodney S. Ruoff named among '2018 Citation Laureates' by Clarivate Analytics.

UNIST Faculty Member Named as Potential Nobel Prize Winner

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

Sep 21, 2018 By JooHyeon Heo People
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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.

New Study Reveals Fast Growth of Highly-Oriented Monolayer Graphene on a Cu/Ni(111) Alloy Foil

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

May 27, 2018 By JooHyeon Heo Research
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Three UNIST Researchers Named World’s Most Highly Cited Researchers

Professors Jin Young Kim, Jaephil Cho, and Rodney S. Ruoff ranked in the top 1% in their felds globally.

Annual list is based on number of citations for papers published between 2005 and 2015.

Three UNIST Researchers Named World’s Most Highly Cited Researchers

Three UNIST researchers have distinguished themselves with inclusion in the 2017 list of Highly Cited Researchers, a yearly distinction released by Clarivate Analytics that was formerly part of Thomson Reuters. The latest Highly Cited Resea... Read More

Nov 15, 2017 By JooHyeon Heo People
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12

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