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IBS CENTER FOR MULTIDIMENSIONAL CARBON MATERIALS
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New Study Reveals Fast Growth of Highly-Oriented Monolayer Graphene on a Cu/Ni(111) Alloy Foil
                                                                                                                  The image editing credit goes to UNIST 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 crys… 작성자 : CMCM 2018.10.11
Professor Rodney S. Ruoff Wins James C. McGroddy Prize
Professor Rodney S. Ruoff Wins James C. McGroddy Prize Professor Rodney S. Ruoff awarded the James C. McGroddy Prize for New Materials by the American Physical Society. Rodney S. Ruoff, Distinguished Professor at the Ulsan National Institute of Science and Technology (UNIST) and Director of the Institute for Basic Science Center for Multidimensional Carbon Materials (IBS-CMCM), has been awarded the James C. McGroddy Prize for New Materials by the American Physical Society (APS).  The James C. McGroddy Prize for New Materials is an internationally prestigious award that has been presented annually since 1997. The purpose of this award is to recognize and encourage outstanding achievement in the science and applications of New Materials.  ​ Professor Ruoff has been given the award in recognition of his pioneering contributions to the scalable synthesis, materials science and applications of graphene and graphene derivatives. The award ceremony took place at … 작성자 : CMCM 2018.10.11
Investigation on the Chemical Reactivity of Graphene Bubbles
  the image editing credit goes to UNIST Investigation on the Chemical Reactivity of Graphene Bubbles The work by Distinguished Professor Rodney S. Ruoff has been published in Physical Review Letters. New study predicts, measures, and controls the temperature of large graphene bubbles with a single laser beam. A recent study, affiliated with UNIST has measured and controlled the temperature of individual graphene bubbles with a single laser beam for the first time.   This study has been led by Distinguished Professor Rodney S. Ruoff (School of Natural Science) in collaboration with Distinguished Professor Feng Ding (School of Materials Science and Engineering) from the Center for Multidimensional Carbon Materials (CMCM) within the Institute for Basic Science (IBS) at UNIST. Their findings have been published in Physical Review Letters on May 3, 2018. ​ Through experiments, the team has newly identified that graphene bubbles are found to be more … 작성자 : CMCM 2018.10.11
Novel Method to Fabricate Nanoribbons from Speeding Nano Droplets
An international team of researchers, affiliated with UNIST has discovered a novel method for the synthesis of ultrathin semiconductors. This is a unique growth mechanism, which yielded nanoscopic semiconductor ribbons that are only a few atoms thick.  This breakthrough has been jointly conducted by Distinguished Professor Feng Ding and Dr. Wen Zhao from the Center for Multidimensional Carbon Materials (CMCM), within the Institute for Basic Science (IBS) at UNIST, in collaboration with the National University of Singapore (NUS), the National Institute for Materials Science (NIMS), the National Institute of Advanced Industrial Science and Technology (AIST), and Shenzhen University. In the study, the research team has successfully fabricated MoS2 nanoribbons via vapour-liquid-solid (VLS) growth mechanism, a type of chemical vapour deposition (CVD) process. Dr. Wen Zhao from the IBS CMCM at UNIST. In the study, she performed density functional theory based molecular … 작성자 : CMCM 2018.10.11
UNIST Introduces Novel Method to Grow Elastic Diamonds
​Diamonds is the strongest naturally occurring material on Earth. It is also renowned for its incomparable properties, such as high stiffness, exceptional thermal conductivity, high chemical resistance, and high optical transparency. Although these remarkable properties of diamond make it highly desirable for many scientific and technological applications, progress has been slow due to its brittleness. A recent study, affiliated with UNIST has unveiled that brittle diamonds can be bent and stretched elastically when made into ultrafine needles. This breakthrough has been jointly conducted by Distinguished Professor Feng Ding’s team from the Center for Multidimensional Carbon Materials (CMCM), within the Institute for Basic Science (IBS) at UNIST, in collaboration with an international team of researchers from Massachusetts Institute of Technology (MIT), City University of Hong Kong, and Nanyang Technological University. The results of the study has been reported this week in th… 작성자 : CMCM 2018.10.11
Three IBS Directors Ranked among Top 1% Highly Cited Researchers
Director Rodney S. RUOFF, CHANG Sukbok, HYEON TaeghwanRanked among Top 1% Highly Cited Researchers of The World in 2017    Director Rodney S. RUOFF, CHANG Sukbok, and HYEON Taeghwan of Institute for Basic Science (IBS) are listed in the top 1% of Highly Cited Researchers of The World in 2017 by Clarivate Analytics (formerly part of Thomson Reuters), a global academic information service firm.  ▲ (From left) Director Rodney S. RUOFF of Center for Multidimensional Carbon Materials, Director CHANG Sukbok of Center for Catalytic Hydrocarbon Functionalizations, and Director HYEON Taeghwan of Center for Nanoparticle Research   Director Rodney S. RUOFF of Center for Multidimensional Carbon Materials was ranked in the categories of materials science, physics, and chemistry for three years in a row from 2015 after his name first appeared on the list in materials science and chemistry in 2014. Among the only 20 researchers whose names were mentioned in three categories t… 작성자 : CMCM 2018.10.11