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The Ruoff group makes new carbon and related molecules and materials through a variety of methods including (i) synthetic chemistry (organic, inorganic, polymer, and others), (ii) by chemical vapor deposition, by diffusion couple experiments, and others, (iii) through exfoliation and assembly of, for example, 2D platelets from layered materials, (iv) by making new types of carbon fibers and fibers of related materials, (v) by ‘3D manufacturing’, and (vi) other methods as they occur to us. We want to understand the mechanisms of formation of such molecules and materials, including the kinetics and thermodynamics underlying their formation. In addition, we aim to understand the detailed chemical bonding configurations present in such new materials through their atomic scale structural characterization. When there are opportunities to “translate” our fundamental research into applications, we avidly collaborate with colleagues who are experts in those applications areas. Our group’s research is typically closely linked to research underway in the CMCM IBS Center located on the UNIST campus. 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, which may have exceptional chemical, physical, and biological properties. Members and visitors enjoy an intellectually stimulating environment in the CMCM that fosters dynamic exchange within the center and abroad through its extensive, international network of research institutions and programs.
The Ruoff group makes new carbon and related molecules and materials through a variety of methods including (i) synthetic chemistry (organic, inorganic, polymer, and others), (ii) by chemical vapor deposition, by diffusion couple experiments, and others, (iii) through exfoliation and assembly of, for example, 2D platelets from layered materials, (iv) by making new types of carbon fibers and fibers of related materials, (v) by ‘3D manufacturing’, and (vi) other methods as they occur to us. We want to understand the mechanisms of formation of such molecules and materials, including the kinetics and thermodynamics underlying their formation. In addition, we aim to understand the detailed chemical bonding configurations present in such new materials through their atomic scale structural characterization. When there are opportunities to “translate” our fundamental research into applications, we avidly collaborate with colleagues who are experts in those applications areas. Our group’s research is typically closely linked to research underway in the CMCM IBS Center located on the UNIST campus. 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, which may have exceptional chemical, physical, and biological properties. Members and visitors enjoy an intellectually stimulating environment in the CMCM that fosters dynamic exchange within the center and abroad through its extensive, international network of research institutions and programs.
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Nano lettersno. 5 (2024): 1467-1470
Matter (2024)
Green Energy & Environment (2023)
Natureno. 7946 (2023): 95-101
Minju Song, Yoonkyum Kim,Du San Baek,Ho Young Kim,Da Hwi Gu, Haiyang Li, Benjamin V Cunning,Seong Eun Yang,Seung Hwae Heo, Seunghyun Lee, Minhyuk Kim,June Sung Lim,
Nature communicationsno. 1 (2023): 8460-13
ACS applied materials & interfacesno. 27 (2023): 33046-33055
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Physical reviewno. 19 (2023)
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