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词条 Rodney S. Ruoff
释义

  1. Research

  2. Positions

  3. Awards and fellowships

  4. External links

  5. References

{{Infobox scientist
| name = Rodney S. Ruoff
| image = Rod Ruoff.jpg
| birth_date = {{Birth year and age|1957}}
| birth_place =
| residence = Republic of Korea
| nationality = USA
| home_town =
| field = Carbon and related materials
| workplaces = Ulsan National Institute of Science and Technology, Center for Multidimensional Carbon Materials
| education =
| alma_mater = University of Illinois-Urbana, University of Texas at Austin
| thesis_title = Fourier-Transform Microwave Spectroscopy of Hydrogen-bonded Trimers and of Conformer Relaxation in Free Jets
| thesis_url =
| thesis_year = 1988
| doctoral_advisor = Herbert S. Gutowsky
| academic_advisors =
| doctoral_students =
| notable_students =
| known_for =
| influences =
| influenced =
| awards =
| website = http://cmcm.ibs.re.kr
| footnotes =
}}

Rodney S. "Rod" Ruoff (born 1957) is an American physical chemist and nanoscience researcher. He is one of the world experts on carbon materials including carbon nanostructures such as fullerenes, nanotubes, graphene, diamond, and has had pioneering discoveries on such materials and others. Ruoff received his B.S. in Chemistry from the University of Texas at Austin (1981) and his Ph.D. in Chemical Physics at the University of Illinois-Urbana (1988). After a Fulbright Fellowship at the MPI fuer Stroemungsforschung in Goettingen, Germany (1989) and postdoctoral work at the IBM T. J. Watson Research Center (1990–91), Ruoff became a staff scientist in the Molecular Physics Laboratory at SRI International (1991-1996). He is currently UNIST Distinguished Professor at the Ulsan National Institute of Science and Technology (UNIST), and the director of the Center for Multidimensional Carbon Materials (CMCM), an Institute for Basic Science (IBS) Center located at UNIST.

Research

Rod Ruoff and his research groups have made seminal contributions to developing new synthesis techniques and improving our understanding of properties of novel materials including nanostructures and 2D materials, especially novel carbon materials (graphene, diamond, nanotubes, sp3-sp2 hybrids, negative curvature carbon, carbon nanofoams, boron nitride allotropes, fullerenes, etc.). Some examples of pioneering studies, among others, include:(i) of the mechanics of C60,[1] and of nanotubes,[2][3][4][5][6][7][8][9][10][11] including pullout of inner shell with respect to outer shell of the nanotube,[12] and of a connection between mechanical deformation and structure on the one hand, and chemical reactivity on the other;[13][14](ii) of solubility phenomena of fullerenes, nanotubes, and graphene;[15][16][17][18][19][20](iii) of carbon-encapsulated metal nanoparticles;[21][22](iv) of patterned graphite and thus micromechanically exfoliated graphene-like flakes;[23][24](v) of scaled growth of graphene on copper and copper-nickel foils;[25][26][27][28][29][30][31][32](vi) of isotopically labeled graphites (graphite oxide) and graphene;[33][34][35][36](vii) of graphene oxide and reduced graphene oxide and composites and paper-like films composed of them;[37][38][39][40][41][42](viii) of the use of chemically modified graphene and graphite foam for electrode materials in electrical energy storage;[43][44][45][46][47](ix) of graphene as a support film for biological TEM;[48](x) of graphene as a protective coating against oxidation (and corrosion) (please also note Appl. Phys. Lett. 92, 052506 (2008) and Appl. Phys. Lett. 93, 022509 (2008)).[49] Ruoff provided some personal perspectives on graphene and new carbon materials ‘on the horizon’ in 2012.[50] As a graduate student at the University of Illinois-Urbana, Ruoff and colleagues published seminal papers on the structure of weakly bound clusters formed in supersonic jets,[51] and of relaxation processes in supersonic jets.[52]

His predictions with A. L. Ruoff about the mechanical response of fullerite under high pressure,[1] and his work with colleagues on the unique solvation phenomena of C60 in various solvent systems,[15][16] and of synthesis and structural characterization of supergiant fullerenes containing single crystal metal ‘encapsulates’,[21] have demonstrated to the scientific community the novel properties of closed-shell carbon structures. He also co-developed a new in-situ mechanical testing device for measuring the tensile response of bundles of SWCNTs and individual MWCNTs inside of a scanning electron microscope.[4][5][6][12] This work has yielded important insights into the mechanics and tribology of these systems, and suggested the possibility of very low friction linear bearings.[12] Similarly, Ruoff and collaborators were the first to use solubility parameters to rationalize the solubility of fullerenes,[15] of single-walled nanotubes,[18] and of chemically modified graphenes.[20] Furthermore, Rod is credited with first creating graphene by lithographic patterning to make single crystal graphite micropillars; he and his team achieved thereby single crystal multilayer graphene platelets.[23][24]

From 2009, Ruoff and collaborators have demonstrated synthesis of large area monolayer graphene on copper foil by chemical vapor deposition,[25][27][28][29] for which relatively high carrier mobilities have been obtained, and subsequently have used isotopic labeling and micro-Raman mapping to map grains and grain boundaries in such atom thick layers and to elucidate growth mechanisms,[30] and studied their performance as transparent conductive electrodes.[26] Ruoff and his collaborators have also made a series of advances in novel composite systems comprising chemically modified graphene platelets.[38][40][41]

Ruoff and his team were the first to use graphene as electrodes of electrochemical capacitors, reporting on graphene supercapacitors in 2008.[43] In 2011, Ruoff and his group reported on a new carbon, potentially having regions of ‘negative curvature carbon’ (NCC) with a remarkably high specific surface area of 3100 m² g−1, and atom-thick carbon sp2-bonded walls that define pores varying in diameter from about 0.6 to 5 nm. They showed that this type of porous carbon (‘a-MEGO’) works very well as an electrode material for double-layer supercapacitors, a very exciting advance.[44]

Rod has a Hirsch factor of 131.[53] He is inventor or co-inventor on 51 issued patents.[54]

Positions

  • UNIST Distinguished Professor of Chemistry and Materials Science and Engineering, Ulsan National Institute of Science and Technology (2014–present)
  • Director of the Center for Multidimensional Carbon Materials (2013-present)[55]
  • Cockrell Family Regents Chair Professor, Mechanical Engineering, The University of Texas at Austin (2007–2013)
  • Professor and John Evans Professor, Mechanical Engineering, Northwestern University (2000–2007)
  • Associate Professor, Physics, Washington University (1996–2000)
  • Staff Scientist, Molecular Physics Laboratory, SRI International (1991–1996)
  • Postdoctoral researcher, IBM Thomas J. Watson Research Center (1990–1991)
  • Postdoctoral researcher/Fulbright Fellow, Max Planck Institute fuer Stroemungsforschung (1989)

Awards and fellowships

  • Clarivate Citation Laureates (2018)[56][57]
  • James C. McGroddy Prize for New Materials (2018), American Physical Society[58][59]
  • American Carbon Society SGL Skakel Award (2016)[60]
  • Clarivate Analytics (Thomson Reuters) Highly Cited Researchers - Chemistry (2014, 2017), Physics (2015, 2016, 2017), Materials Science (2016,[61] 2017,[62] 2018[63][64][65])
  • Turnbull Award Materials Research Society (2014)
  • Materials Research Society Fellow (2013)
  • American Association for the Advancement of Science (AAAS) Fellow (2012)
  • American Physical Society Fellow (2011)
  • Distinguished Chair Visiting Professor (2005–2007), Sungkyunkwan University Advanced Institute of Science and Technology (SAINT)
  • Fulbright Fellow (1989)

External links

  • {{cite web|url=https://www.youtube.com/watch?v=OjBudmbTqI4 |title=MRS F14 Turnbull Lecture given by Prof. Ruoff |website= Youtube |date= |accessdate=2015-02-17}}
  • {{cite web|url=http://cmcm.ibs.re.kr |title=Center for Multidimensional Carbon Materials (CMCM) |website= Center for Multidimensional Carbon Materials |publisher= Institute for Basic Science |date= |accessdate=2015-02-13}}
  • {{cite web|url=http://cmcm.ibs.re.kr/wave/?MM=02&SM=01 |title=Prof. Rodney Ruoff |website= Center for Multidimensional Carbon Materials |publisher=Institute for Basic Science |date= |accessdate=2015-02-13}}
  • {{cite web |url= https://scholar.google.com/citations?user=rKoPXo8AAAAJ |title= Rodney Ruoff - Google Scholar Citations |author= |date= |website= Google Scholar |access-date= 25 January 2019 |quote=}}

References

1. ^{{Cite journal | doi = 10.1038/350663b0| title = Is C60 stiffer than diamond?| journal = Nature| volume = 350| issue = 6320| pages = 663| year = 1991| last1 = Ruoff | first1 = R. S. | last2 = Ruoff | first2 = A. L. |bibcode = 1991Natur.350..663R }}
2. ^{{Cite journal | doi = 10.1038/364514a0| title = Radial deformation of carbon nanotubes by van der Waals forces| journal = Nature| volume = 364| issue = 6437| pages = 514–516| year = 1993| last1 = Ruoff | first1 = R. S.| last2 = Tersoff | first2 = J. | last3 = Lorents | first3 = D. C. | last4 = Subramoney | first4 = S. | last5 = Chan | first5 = B.|bibcode = 1993Natur.364..514R }}
3. ^{{Cite journal | doi = 10.1103/PhysRevLett.73.676| pmid = 10057509| title = Structural Properties of a Carbon-Nanotube Crystal| journal = Physical Review Letters| volume = 73| issue = 5| pages = 676| year = 1994| last1 = Tersoff | first1 = J.| last2 = Ruoff | first2 = R.|bibcode = 1994PhRvL..73..676T }}
4. ^{{Cite journal | doi = 10.1088/0957-4484/10/3/304| title = Three-dimensional manipulation of carbon nanotubes under a scanning electron microscope| journal = Nanotechnology| volume = 10| issue = 3| pages = 244| year = 1999| last1 = Yu | first1 = M. | last2 = Dyer | first2 = M. J. | last3 = Skidmore | first3 = G. D. | last4 = Rohrs | first4 = H. W. | last5 = Lu | first5 = X. | last6 = Ausman | first6 = K. D. | last7 = Ehr | first7 = J. R. V. | last8 = Ruoff | first8 = R. S. |bibcode = 1999Nanot..10..244Y }}
5. ^{{Cite journal | last1 = Yu | first1 = M. | last2 = Lourie | first2 = O. | last3 = Dyer | first3 = M. J. | last4 = Moloni | first4 = K. | last5 = Kelly | first5 = T. F. | last6 = Ruoff | first6 = R. S. | title = Strength and Breaking Mechanism of Multiwalled Carbon Nanotubes Under Tensile Load | doi = 10.1126/science.287.5453.637 | journal = Science | volume = 287 | issue = 5453 | pages = 637–640 | year = 2000 | pmid = 10649994| pmc = |bibcode = 2000Sci...287..637Y }}
6. ^{{Cite journal | last1 = Yu | first1 = M. F. | last2 = Files | first2 = B. | last3 = Arepalli | first3 = S. | last4 = Ruoff | first4 = R. | title = Tensile Loading of Ropes of Single Wall Carbon Nanotubes and their Mechanical Properties | doi = 10.1103/PhysRevLett.84.5552 | journal = Physical Review Letters | volume = 84 | issue = 24 | pages = 5552–5555 | year = 2000 | pmid = 10990992| pmc = |bibcode = 2000PhRvL..84.5552Y }}
7. ^{{Cite journal | doi = 10.1103/PhysRevLett.85.1456| pmid = 10970528| title = Investigation of the Radial Deformability of Individual Carbon Nanotubes under Controlled Indentation Force| journal = Physical Review Letters| volume = 85| issue = 7| pages = 1456–9| year = 2000| last1 = Yu | first1 = M. F. | last2 = Kowalewski | first2 = T. | last3 = Ruoff | first3 = R. |bibcode = 2000PhRvL..85.1456Y }}
8. ^{{Cite journal | doi = 10.1103/PhysRevLett.86.87| title = Structural Analysis of Collapsed, and Twisted and Collapsed, Multiwalled Carbon Nanotubes by Atomic Force Microscopy| journal = Physical Review Letters| volume = 86| issue = 1| pages = 87–90| year = 2001| last1 = Yu | first1 = M. F. | last2 = Kowalewski | first2 = T. | last3 = Ruoff | first3 = R. |bibcode = 2001PhRvL..86...87Y | pmid=11136100}}
9. ^{{Cite journal | doi = 10.1063/1.1356437| title = Structure and mechanical flexibility of carbon nanotube ribbons: An atomic-force microscopy study| journal = Journal of Applied Physics| volume = 89| issue = 8| pages = 4554| year = 2001| last1 = Yu | first1 = M. F. | last2 = Dyer | first2 = M. J. | last3 = Ruoff | first3 = R. S. |bibcode = 2001JAP....89.4554Y }}
10. ^{{Cite journal | doi = 10.1021/Nl0343396| title = Bone-Shaped Nanomaterials for Nanocomposite Applications| journal = Nano Letters| volume = 3| issue = 8| pages = 1135| year = 2003| last1 = Xu | first1 = T. T. | last2 = Fisher | first2 = F. T. | last3 = Brinson | first3 = L. C. | last4 = Ruoff | first4 = R. S. |bibcode = 2003NanoL...3.1135X | citeseerx = 10.1.1.659.9826}}
11. ^{{Cite journal | doi = 10.1021/Nl0345973| title = Direct Observation of Polymer Sheathing in Carbon Nanotube−Polycarbonate Composites| journal = Nano Letters| volume = 3| issue = 11| pages = 1593| year = 2003| last1 = Ding | first1 = W.| last2 = Eitan | first2 = A.| last3 = Fisher | first3 = F. T.| last4 = Chen | first4 = X.| last5 = Dikin | first5 = D. A.| last6 = Andrews | first6 = R.| last7 = Brinson | first7 = L. C.| last8 = Schadler | first8 = L. S.| last9 = Ruoff | first9 = R. S.|bibcode = 2003NanoL...3.1593D | citeseerx = 10.1.1.659.9130}}
12. ^{{Cite journal | doi = 10.1021/Jp002828d| title = Controlled Sliding and Pullout of Nested Shells in Individual Multiwalled Carbon Nanotubes| journal = The Journal of Physical Chemistry B| volume = 104| issue = 37| pages = 8764| year = 2000| last1 = Yu | first1 = M. F. | last2 = Yakobson | first2 = B. I. | last3 = Ruoff | first3 = R. S. }}
13. ^{{Cite journal | doi = 10.1021/Jp990882s| title = Predictions of Enhanced Chemical Reactivity at Regions of Local Conformational Strain on Carbon Nanotubes: Kinky Chemistry| journal = The Journal of Physical Chemistry B| volume = 103| issue = 21| pages = 4330| year = 1999| last1 = Srivastava | first1 = D. | last2 = Brenner | first2 = D. W. | last3 = Schall | first3 = J. D. | last4 = Ausman | first4 = K. D. | last5 = Yu | first5 = M. | last6 = Ruoff | first6 = R. S. }}
14. ^{{Cite journal | doi = 10.1088/0957-4484/10/3/306| title = Nanostressing and mechanochemistry| journal = Nanotechnology| volume = 10| issue = 3| pages = 258| year = 1999| last1 = Ausman | first1 = K. D. | last2 = Rohrs | first2 = H. W. | last3 = Yu | first3 = M. | last4 = Ruoff | first4 = R. S. |bibcode = 1999Nanot..10..258A }}
15. ^{{Cite journal | doi = 10.1021/J100115a049| title = Solubility of fullerene (C60) in a variety of solvents| journal = The Journal of Physical Chemistry| volume = 97| issue = 13| pages = 3379| year = 1993| last1 = Ruoff | first1 = R. S.| last2 = Tse | first2 = D. S. | last3 = Malhotra | first3 = R. | last4 = Lorents | first4 = D. C. }}
16. ^{{Cite journal | doi = 10.1038/362140a0| title = Anomalous solubility behaviour of C60| journal = Nature| volume = 362| issue = 6416| pages = 140| year = 1993| last1 = Ruoff | first1 = R. S. | last2 = Malhotra | first2 = R. | last3 = Huestis | first3 = D. L. | last4 = Tse | first4 = D. S. | last5 = Lorents | first5 = D. C. |bibcode = 1993Natur.362..140R }}
17. ^{{Cite journal | doi = 10.1021/Jp9804401| title = C60·Bromobenzene Solvate: Crystallographic and Thermochemical Studies and Their Relationship to C60Solubility in Bromobenzene| journal = The Journal of Physical Chemistry B| volume = 102| issue = 19| pages = 3712| year = 1998| last1 = Korobov | first1 = M. V. | last2 = Mirakian | first2 = A. L. | last3 = Avramenko | first3 = N. V. | last4 = Valeev | first4 = E. F. | last5 = Neretin | first5 = I. S. | last6 = Slovokhotov | first6 = Y. L. | last7 = Smith | first7 = A. L. | last8 = Olofsson | first8 = G. | last9 = Ruoff | first9 = R. S. }}
18. ^{{Cite journal | doi = 10.1021/Jp002555m| title = Organic Solvent Dispersions of Single-Walled Carbon Nanotubes: Toward Solutions of Pristine Nanotubes| journal = The Journal of Physical Chemistry B| volume = 104| issue = 38| pages = 8911| year = 2000| last1 = Ausman | first1 = K. D. | last2 = Piner | first2 = R. | last3 = Lourie | first3 = O. | last4 = Ruoff | first4 = R. S. | last5 = Korobov | first5 = M. }}
19. ^{{Cite journal | doi = 10.1021/Cm801932u| title = Aqueous Suspension and Characterization of Chemically Modified Graphene Sheets| journal = Chemistry of Materials| volume = 20| issue = 21| pages = 6592| year = 2008| last1 = Park | first1 = S. | last2 = An | first2 = J. | last3 = Piner | first3 = R. D. | last4 = Jung | first4 = I. | last5 = Yang | first5 = D. | last6 = Velamakanni | first6 = A. | last7 = Nguyen | first7 = S. T. | last8 = Ruoff | first8 = R. S. }}
20. ^{{Cite journal | doi = 10.1021/Nl803798y| title = Colloidal Suspensions of Highly Reduced Graphene Oxide in a Wide Variety of Organic Solvents| journal = Nano Letters| volume = 9| issue = 4| pages = 1593–7| year = 2009| last1 = Park | first1 = S. | last2 = An | first2 = J. | last3 = Jung | first3 = I. | last4 = Piner | first4 = R. D. | last5 = An | first5 = S. J. | last6 = Li | first6 = X. | last7 = Velamakanni | first7 = A. | last8 = Ruoff | first8 = R. S. |bibcode = 2009NanoL...9.1593P | pmid=19265429}}
21. ^{{Cite journal | doi = 10.1126/science.259.5093.346| pmid = 17832348| title = Single Crystal Metals Encapsulated in Carbon Nanoparticles| journal = Science| volume = 259| issue = 5093| pages = 346| year = 1993| last1 = Ruoff | first1 = R. S.| last2 = Lorents | first2 = D. C.| last3 = Chan | first3 = B.| last4 = Malhotra | first4 = R.| last5 = Subramoney | first5 = S.|bibcode = 1993Sci...259..346R }}
22. ^{{Cite journal | doi = 10.1016/0008-6223(94)90173-2| title = Magnetic separation of GdC2 encapsulated in carbon nanoparticles| journal = Carbon| volume = 32| issue = 3| pages = 507| year = 1994| last1 = Subramoney | first1 = S. | last2 = Ruoff | first2 = R. S. | last3 = Lorents | first3 = D. C. | last4 = Chan | first4 = B. | last5 = Malhotra | first5 = R. | last6 = Dyer | first6 = M. J. | last7 = Parvin | first7 = K.}}
23. ^{{Cite journal | doi = 10.1063/1.124316| title = Patterning of highly oriented pyrolytic graphite by oxygen plasma etching| journal = Applied Physics Letters| volume = 75| issue = 2| pages = 193| year = 1999| last1 = Lu | first1 = X. | last2 = Huang | first2 = H. | last3 = Nemchuk | first3 = N. | last4 = Ruoff | first4 = R. S. |bibcode = 1999ApPhL..75..193L }}
24. ^{{Cite journal | doi = 10.1088/0957-4484/10/3/308| title = Tailoring graphite with the goal of achieving single sheets| journal = Nanotechnology| volume = 10| issue = 3| pages = 269| year = 1999| last1 = Lu | first1 = X. | last2 = Yu | first2 = M. | last3 = Huang | first3 = H. | last4 = Ruoff | first4 = R. S. |bibcode = 1999Nanot..10..269L }}
25. ^{{Cite journal | last1 = Li | first1 = X. | last2 = Cai | first2 = W. | last3 = An | first3 = J. | last4 = Kim | first4 = S. | last5 = Nah | first5 = J. | last6 = Yang | first6 = D. | last7 = Piner | first7 = R. | last8 = Velamakanni | first8 = A. | last9 = Jung | first9 = I. | doi = 10.1126/science.1171245 | last10 = Tutuc | first10 = E. | last11 = Banerjee | first11 = S. K. | last12 = Colombo | first12 = L. | last13 = Ruoff | first13 = R. S. | title = Large-Area Synthesis of High-Quality and Uniform Graphene Films on Copper Foils | journal = Science | volume = 324 | issue = 5932 | pages = 1312–1314 | year = 2009 | pmid = 19423775| pmc = |arxiv = 0905.1712 |bibcode = 2009Sci...324.1312L }}
26. ^{{Cite journal | doi = 10.1063/1.3220807| title = Large area few-layer graphene/graphite films as transparent thin conducting electrodes| journal = Applied Physics Letters| volume = 95| issue = 12| pages = 123115| year = 2009| last1 = Cai | first1 = W. | last2 = Zhu | first2 = Y. | last3 = Li | first3 = X. | last4 = Piner | first4 = R. D. | last5 = Ruoff | first5 = R. S. |bibcode = 2009ApPhL..95l3115C }}
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28. ^{{Cite journal | doi = 10.1021/Nl101629g| pmid = 20957985| title = Graphene Films with Large Domain Size by a Two-Step Chemical Vapor Deposition Process| journal = Nano Letters| volume = 10| issue = 11| pages = 4328–4334| year = 2010| last1 = Li | first1 = X. | last2 = Magnuson | first2 = C. W. | last3 = Venugopal | first3 = A. | last4 = An | first4 = J. | last5 = Suk | first5 = J. W. | last6 = Han | first6 = B. | last7 = Borysiak | first7 = M. | last8 = Cai | first8 = W. | last9 = Velamakanni | first9 = A. | last10 = Zhu | first10 = Y. | last11 = Fu | first11 = L. | last12 = Vogel | first12 = E. M. | last13 = Voelkl | first13 = E. | last14 = Colombo | first14 = L. | last15 = Ruoff | first15 = R. S. |arxiv = 1010.4731 |bibcode = 2010NanoL..10.4328L }}
29. ^{{Cite journal | doi = 10.1021/Ja109793s| title = Large-Area Graphene Single Crystals Grown by Low-Pressure Chemical Vapor Deposition of Methane on Copper| journal = Journal of the American Chemical Society| volume = 133| issue = 9| pages = 2816–2819| year = 2011| last1 = Li | first1 = X. | last2 = Magnuson | first2 = C. W. | last3 = Venugopal | first3 = A. | last4 = Tromp | first4 = R. M. | last5 = Hannon | first5 = J. B. | last6 = Vogel | first6 = E. M. | last7 = Colombo | first7 = L. | last8 = Ruoff | first8 = R. S. | pmid=21309560}}
30. ^{{Cite journal | doi = 10.1021/Nl201699j| title = Synthesis and Characterization of Large-Area Graphene and Graphite Films on Commercial Cu–Ni Alloy Foils| journal = Nano Letters| volume = 11| issue = 9| pages = 3519–3525| year = 2011| last1 = Chen | first1 = S. | last2 = Cai | first2 = W. | last3 = Piner | first3 = R. D. | last4 = Suk | first4 = J. W. | last5 = Wu | first5 = Y. | last6 = Ren | first6 = Y. | last7 = Kang | first7 = J. | last8 = Ruoff | first8 = R. S. | pmid=21793495| bibcode = 2011NanoL..11.3519C}}
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32. ^{{Cite journal | doi = 10.1126/science.1243879| title = The Role of Surface Oxygen in the Growth of Large Single-Crystal Graphene on Copper| journal = Science| volume = 342| issue = 6159| pages = 720–723| year = 2013| last1 = Hao | first1 = Y.| last2 = Bharathi | first2 = M. S.| last3 = Wang | first3 = L.| last4 = Liu | first4 = Y.| last5 = Chen | first5 = H.| last6 = Nie | first6 = S.| last7 = Wang | first7 = X.| last8 = Chou | first8 = H.| last9 = Tan | first9 = C.| last10 = Fallahazad | first10 = B.| last11 = Ramanarayan | first11 = H.| last12 = Magnuson | first12 = C. W.| last13 = Tutuc | first13 = E.| last14 = Yakobson | first14 = B. I.| last15 = McCarty | first15 = K. F.| last16 = Zhang | first16 = Y. -W. | last17 = Kim | first17 = P.| last18 = Hone | first18 = J.| last19 = Colombo | first19 = L.| last20 = Ruoff | first20 = R. S.|bibcode = 2013Sci...342..720H | pmid=24158906}}
33. ^{{Cite journal | doi = 10.1126/science.1162369| title = Synthesis and Solid-State NMR Structural Characterization of 13C-Labeled Graphite Oxide| journal = Science| volume = 321| issue = 5897| pages = 1815–1817| year = 2008| last1 = Cai | first1 = W.| last2 = Piner | first2 = R. D.| last3 = Stadermann | first3 = F. J.| last4 = Park | first4 = S.| last5 = Shaibat | first5 = M. A.| last6 = Ishii | first6 = Y.| last7 = Yang | first7 = D.| last8 = Velamakanni | first8 = A.| last9 = An | first9 = S. J.| last10 = Stoller | first10 = M.| last11 = An | first11 = J.| last12 = Chen | first12 = D.| last13 = Ruoff | first13 = R. S.|bibcode = 2008Sci...321.1815C | pmid=18818353}}
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53. ^As determined from [https://apps.webofknowledge.com/ Web of Science] January 29, 2019.
54. ^As of January 28, 2019.
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56. ^{{cite web |url= https://clarivate.com/hall-of-citation-laureates-2018/ |title= Hall of Citation Laureates |author= |date= |website= Clarivate Analytics |publisher= |access-date= 4 October 2018 |quote=}}
57. ^{{cite web |url= https://www.ibs.re.kr/cop/bbs/BBSMSTR_000000000739/selectBoardArticle.do?nttId=16229 |title= Rodney Ruoff, Director of the IBS Center for Multidimensional Carbon Materials, Listed as a Citation Laureate with the Track Record Deemed to be of 'Nobel Stature' |last= Byun |first= Kwan Joo |date= 23 August 2018 |website= Institute for Basic Science |publisher= |access-date= 5 September 2018 |quote=}}
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59. ^{{cite web |url= https://www.eurekalert.org/pub_releases/2017-11/unio-prs112817.php |title= Professor Rodney S. Ruoff wins prestigious James C. McGroddy Prize |author= |date= 29 November 2017 |website= EurekAlert! |publisher= |access-date= 15 February 2019 |quote= }}
60. ^{{cite web |url= http://chemistry.unist.ac.kr/news/awarded-the-sgl-prize-from-the-american-carbon-society-2016-professor-rodney-ruoff/ |title= UNIST Professor Selected as Recipient of SGL Carbon Award: Recognized for his outstanding and many contributions on a variety of carbon materials |last= Heo |first= Joo Hyeon |date= 7 July 2016 |website= Department of Chemistry |publisher= UNIST |access-date= 5 October 2018 |quote=}}
61. ^{{cite web |url= https://www.eurekalert.org/pub_releases/2016-11/unio-urn111816.php |title= UNIST researchers named to Thomson Reuters' list of highly cited scientists |author= |date= 18 November 2016 |website= EurekAlert |publisher= |access-date= 5 October 2018 |quote=}}
62. ^{{cite web |url= https://www.eurekalert.org/pub_releases/2017-11/unio-tur112817.php |title= Three UNIST researchers named world's most highly cited researchers |last= Heo |first= JooHyeon |date= 29 November 2017 |website= EurekAlert |publisher= |access-date= 5 October 2018 |quote=}}
63. ^{{cite web |url= http://news.unist.ac.kr/seven-unist-researchers-named-worlds-most-highly-cited-researchers |title= Seven UNIST Researchers Named ‘World’s Most Highly Cited Researchers’ |last= Joo |first= Hyeon Heo |date= 28 November 2018 |website= News Center |publisher= UNIST |access-date= 12 February 2019 |quote=}}
64. ^{{cite web |url= https://www.ibs.re.kr/cop/bbs/BBSMSTR_000000000739/selectBoardArticle.do?nttId=16529 |title= IBS Places First Among Korean Institutions by Featuring 9 Scientists in List of Highly Cited Researchers |author= |date= 4 December 2018 |website= Institute for Basic Science |publisher= |access-date= 12 February 2019 |quote= }}
65. ^{{cite web |url= http://www.newsis.com/view/?id=NISX20181127_0000485504&cID=10814&pID=10800 |title= UNIST 교수 7명, '세계에서 가장 영향력 있는 연구자'에 선정 |last= 구 |first= 미현 |date= 27 November 2018 |website= Newsis |publisher= |access-date= 12 February 2019 |quote= |language= Korean}}
{{authority control}}{{DEFAULTSORT:Ruoff, Rodney S.}}

12 : American materials scientists|21st-century American chemists|American physical chemists|University of Texas at Austin faculty|Northwestern University faculty|Living people|University of Illinois at Urbana–Champaign alumni|Fulbright Scholars|ISI highly cited researchers|1957 births|21st-century American scientists|Institute for Basic Science
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