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Rodney S. Ruoff
Researcher at Ulsan National Institute of Science and Technology
Publications - 689
Citations - 214247
Rodney S. Ruoff is an academic researcher from Ulsan National Institute of Science and Technology. The author has contributed to research in topics: Graphene & Graphene oxide paper. The author has an hindex of 164, co-authored 666 publications receiving 194902 citations. Previous affiliations of Rodney S. Ruoff include Texas State University & North Carolina State University.
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Journal ArticleDOI
Confirmation of a vanishingly small ring-current magnetic susceptibility of icosahedral c60
Rodney S. Ruoff,David B. Beach,Jerome J. Cuomo,T. McGuire,Robert L. Whetten,François Diederich +5 more
TL;DR: In this article, the magnetic susceptibility of the icosahedral C{sub 60} molecule (buckminsterfullerene) was measured by SQUID magnetometry and the obtained mass value, {chi}{sub g} = {minus}0.35 {times} 10{sup {minus 6} 6, is far below that of graphite or benzene, consistent with the Elser-Haddon picture.
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A facile route to recover intrinsic graphene over large scale.
Dong-Wook Shin,Hyun Myoung Lee,Seong Man Yu,Kwang-Soo Lim,Jae Hoon Jung,Min-Kyu Kim,Sang-Woo Kim,Jae-Hee Han,Rodney S. Ruoff,Ji-Beom Yoo +9 more
TL;DR: Graphene field effect transistors subsequently exposed to air, became p-type doped due to recovery of the H(2)O/O( 2) redox system, and poly(methyl methacrylate) (PMMA)-coated graphene FETs had improved stability for maintaining the intrinsic graphene electronic properties.
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Van der Waals Epitaxial Double Heterostructure: InAs/Single‐Layer Graphene/InAs
Young Joon Hong,Young Joon Hong,Jae Won Yang,Wi Hyoung Lee,Wi Hyoung Lee,Rodney S. Ruoff,Kwang S. Kim,Takashi Fukui +7 more
TL;DR: First-principles and density functional calculations demonstrate how and why InAs easily form to be double heterostructures with polarity inversion.
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Would Diamond Nanorods Be Stronger than Fullerene Nanotubes
TL;DR: In this paper, the authors compared the mechanical properties of single-walled nanotubes (SWNTs) and multi-walled nanotube (MWNT) structures with the predicted properties of an equivalent nanoscopic-scale diamond structure.
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Graphene synthesis via magnetic inductive heating of copper substrates.
Richard D. Piner,Huifeng Li,Xianghua Kong,Li Tao,Iskandar Kholmanov,Iskandar Kholmanov,Hengxing Ji,Wi Hyoung Lee,Wi Hyoung Lee,Ji Won Suk,Jongpil Ye,Jongpil Ye,Yufeng Hao,Shanshan Chen,Shanshan Chen,Carl W. Magnuson,Ariel Ismach,Deji Akinwande,Rodney S. Ruoff +18 more
TL;DR: A route to graphene synthesis is reported in which radio frequency (RF) magnetic fields inductively heat metal foils, yielding graphene of quality comparable to or higher than that of current chemical vapor deposition techniques.