Center for Multidimensional Carbon Materials (CMCM)


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The IBS Center for Multidimensional Carbon Materials (CMCM) supports a talented international team of highly collaborative researchers that design, synthesize and study new forms of carbon and related materials, many of which are expected to have exceptional physical and electronic properties. The center is located in a new building at the Ulsan National Institute of Science and Technology (UNIST), nestled in a beautiful area near the port cities of Ulsan and Busan. Ulsan is famous for its shipbuilding, automobile manufacturing, and petrochemical and chemical industries, and thus an ideal location to interface science with industry. Members and visitors of the CMCM will enjoy an intellectually stimulating environment that fosters dynamic exchange within the center and abroad through its extensive, international network of research institutions and programs.

■ Research Interests/Topics
Synthesis and properties of new carbon, and related, materials
Composite materials and novel carbon fibers
Chemical reaction mechanisms
Kinetics and Thermodynamics of chemical reactions
Physical and chemical properties of new materials
Synthesize and study new forms of carbon and related materials
Reaction pathways, kinetics and thermodynamics of chemical reactions
Physical and chemical properties of new carbon and related materials

우리 연구단은 현재 울산과 부산 근교의 UNIST(울산과학기술원) 내에 위치하고 있습니다. 울산은 조선, 자동차산업, 정유화학, 화학 산업으로 유명하며, 따라서 과학과 산업을 접목시키는데 매우 이상적인 지리적 특성을 가지고 있습니다. 다차원탄소재료 연구단을 방문하는 연구자들과 관련 종사자들은, 우리 연구단을 둘러싼 환경이 연구단 내부뿐만 아니라 국제적으로도 역동적으로 협력하며 연구를 수행할 수 있도록 하는, 활발한 교류를 지원하는 지적자극 환경임을 보실 수 있을 것이며, 또한 그러한 환경을 마음껏 즐길 수 있을 것 입니다.

다차원 탄소재료 연구단은 새로운 형태의 탄소와 관련 물질들을 디자인하고 합성하고, 연구하고 있으며, 우리가 만드는 새로운 형태의 탄소와 관련물질들 중에는 매우 특이한 물리학적 전자적 특성을 가지는 물질들이 많이 있습니다.

■ 새로운 형태의 탄소 동소체의 디자인, 합성 및 특성 연구
- 새로운 탄소 재료 및 탄소 기반 하이브리드 재료의 디자인, 합성, 물성 연구를 선도
- 화학, 물리, 재료과학 등 관련 분야의 세계적 연구자들로 연구단을 구성하여 창의·융합 연구를 수행



Synthesis and properties of carbon and related materials


Synthesis and properties of carbon and related materials

Research Keywords and Topics

Next generation carbons
Ultrathin sp3-bonded carbon sheets
Negative curvature (‘Schwartzites’) carbons
sp3/sp2 hybrid carbon materials
Model compounds for novel carbon materials
Reaction mechanisms

Research Publications

(1) Nature Nanotechnology, Chemically Induced Transformation of Chemical Vapour Deposition Grown Bilayer Graphene into Fluorinated Single-Layer Diamond, PavelBakharev, MingHuang, ManavSaxena, SukWooLee, SeHunJoo, SungOPark, JichenDong, DulceCamacho, SunghwanJin, YoungwooKwon, MandakiniBiswal, FengDing, SangKyuKwak, ZonghoonLee, Rodney Ruoff (2020)
(2) Science, Colossal grain growth yields single crystal metal foils by contact-free annealing, SunghwanJin, MingHuang, YoungwooKwon, LeiningZhang, BaoWenLi, SangjunOh, JichenDong, DaLuo, MandakiniBiswal, BenCunning, PavelBakharev, InyongMoon, WonJongYoo, DulceCamacho, YongJinKim, SunHwaLee, BinWang, WonKyungSeong, ManavSaxena, FengDing, HyungJoonShin, Rodney Ruoff (2018)
(3) Science, Large-area synthesis of high-quality and uniform graphene films on copper foils, XuesongLi, WeiweiCai, JinhoAn, SeyoungKim, JunghyoNah, DongxingYang, RichardPiner, ArunaVelamakanni, InhwaJung, EmanuelTutuc, SanjayBanerjee, LuigiColombo, Rodney Ruoff (2009)


Patents (Selected)
(1) Single crystalline metal Foil and manufacturing method therefor, Rodney S. Ruoff, Sunghwan Jin, ( 2019/08/08)
(2) Graphene synthesis by chemical vapor deposition, Luigi Colombo, Xuesong Li, Rodney S. Ruoff, (2013/06/25)