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Artículos más citados

Documento sin título (a 01 de octubre de 2019)


Artículos publicados en 2019: 232
Número total de artículos (Nt): 9330
Suma total de citas (S): 245875
Media de citas por artículo (Ac=S/Nt): 26,35
h-index = 158
Fuente: ISI Web of Knowledge, Ed. Thomson Reuters (2019)



Below we present the list of the most cited papers since 1987 (foundation of the Institute), of which those of the ICMM represent the 20% of the 10 most cited Spanish (Condensed Matter Physics, Physical Chemistry, Materials Science Multidisciplinary, Applied Physics, Inorganic Chemistry, Nanoscience and Nanotechnology) articles ever logo pdf, and the paper by Prof. F. Guinea is the only Spanish paper included in the 1% of best articles in Physics (Web of Science, 2017):


1. The electronic properties of graphene
Castro Neto, AH; Guinea, F; Peres, NMR; Novoselov, KS; Geim, AK
Rev. Mod. Phys. 81, 109-162 (2009)
Times cited: 13067


2. WSXM: A software for scanning probe microscopy and a tool for nanotechnology
Horcas, I; Fernandez, R; Gomez-Rodriguez, JM; Colchero, J; Gomez-Herrero, J; Baro, AM
Rev. Sci. Instrum. 78, - (2007)
Times cited: 4284


3. Substrate-induced bandgap opening in epitaxial graphene
Zhou, SY; Gweon, GH; Fedorov, AV; First, PN; De Heer, WA; Lee, DH; Guinea, F; Neto, AHC; Lanzara, A
Nat. Mater. 6, 770-775 (2007)
Times cited: 1516


4. The preparation of magnetic nanoparticles for applications in biomedicine
Tartaj, P; Morales, MD; Veintemillas-Verdaguer, S; Gonzalez-Carreno, T; Serna, CJ
J. Phys. D Appl. Phys. 36, R182-R197 (2003)
Times cited: 1316


5. Large-scale synthesis of a silicon photonic crystal with a complete three-dimensional bandgap near 1.5 micrometres
Blanco, A; Chomski, E; Grabtchak, S; Ibisate, M; John, S; Leonard, SW; Lopez, C; Meseguer, F; Miguez, H; Mondia, JP; Ozin, GA; Toader, O; van Driel, HM
Nature 405, 437-440 (2000)
Times cited: 1308


6. Electronic properties of disordered two-dimensional carbon
Peres, NMR; Guinea, F; Neto, AHC
Phys. Rev. B 73, - (2006)
Times cited: 1214


7. Biased bilayer graphene: Semiconductor with a gap tunable by the electric field effect
Castro, EV; Novoselov, KS; Morozov, SV; Peres, NMR; Dos Santos, JMBL; Nilsson, J; Guinea, F; Geim, AK; Neto, AHC
Phys. Rev. Lett. 99, - (2007)
Times cited: 1197


8. Science and technology roadmap for graphene, related two-dimensional crystals, and hybrid systems
Ferrari, AC; Bonaccorso, F; Fal'ko, V; Novoselov, KS; Roche, S; Boggild, P; Borini, S; Koppens, FHL; Palermo, V; Pugno, N; Garrido, JA; Sordan, R; Bianco, A; Ballerini, L; Prato, M; Lidorikis, E; Kivioja, J; Marinelli, C; Ryhanen, T; Morpurgo, A; Coleman,
Nanoscale 7, 4598-4810 (2015)
Times cited: 985


9. Static and dynamic magnetic properties of spherical magnetite nanoparticles
Goya, GF; Berquo, TS; Fonseca, FC; Morales, MP
J. Appl. Phys. 94, 3520-3528 (2003)
Times cited: 859


10. Electronic states of graphene nanoribbons studied with the Dirac equation
Brey, L; Fertig, HA
Phys. Rev. B 73, - (2006)
Times cited: 808


11. Energy gaps and a zero-field quantum Hall effect in graphene by strain engineering
Guinea, F; Katsnelson, MI; Geim, AK
Nat. Phys. 6, 30-33 (2010)
Times cited: 780


12. Strain-Induced Pseudo-Magnetic Fields Greater Than 300 Tesla in Graphene Nanobubbles
Levy, N; Burke, SA; Meaker, KL; Panlasigui, M; Zettl, A; Guinea, F; Neto, AHC; Crommie, MF
Science 329, 544-547 (2010)
Times cited: 763


13. Materials aspects of photonic crystals
Lopez, C
Adv. Mater. 15, 1679-1704 (2003)
Times cited: 695


14. Dynamical polarization of graphene at finite doping
Wunsch, B; Stauber, T; Sols, F; Guinea, F
New. J. Phys. 8, -15 (2006)
Times cited: 661


15. Spin-orbit coupling in curved graphene, fullerenes, nanotubes, and nanotube caps
Huertas-Hernando, D; Guinea, F; Brataas, A
Phys. Rev. B 74, - (2006)
Times cited: 645


16. Three dimensional macroporous architectures and aerogels built of carbon nanotubes and/or graphene: synthesis and applications
Nardecchia, S; Carriazo, D; Ferrer, ML; Gutierrez, MC; del Monte, F
Chem. Soc. Rev. 42, 794-830 (2013)
Times cited: 631


17. Electron-Electron Interactions in Graphene: Current Status and Perspectives
Kotov, VN; Uchoa, B; Pereira, VM; Guinea, F; Castro Neto, AH
Rev. Mod. Phys. 84, 1067-1125 (2012)
Times cited: 616


18. Biological applications of magnetic nanoparticles
Colombo, M; Carregal-Romero, S; Casula, MF; Gutierrez, L; Morales, MP; Bohm, IB; Heverhagen, JT; Prosperi, D; Parak, WJ
Chem. Soc. Rev. 41, 4306-4334 (2012)
Times cited: 546


19. Germanene: a novel two-dimensional germanium allotrope akin to graphene and silicene
Davila, ME; Xian, L; Cahangirov, S; Rubio, A; Le Lay, G
New. J. Phys. 16, -10 (2014)
Times cited: 509


20. Cloning of Dirac fermions in graphene superlattices
Ponomarenko, LA; Gorbachev, RV; Yu, GL; Elias, DC; Jalil, R; Patel, AA; Mishchenko, A; Mayorov, AS; Woods, CR; Wallbank, JR; Mucha-Kruczynski, M; Piot, BA; Potemski, M; Grigorieva, IV; Novoselov, KS; Guinea, F; Fal'ko, VI; Geim, AK
Nature 497, 594-597 (2013)
Times cited: 490




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