ISI WoS Researcher ID: G-7580-2011
Scopus Author ID: 23036490400

Hungarian Academy of Sciences Database
Updated: 26-05-2015
Publication list: (Last updated 1/08/2013)




Book chapters
1. F. Simon, R. Pfeiffer, C. Kramberger, M. Holzweber, H. Kuzmany: "The Raman response of double wall carbon nanotubes", in "Applied Physics of Carbon Nanotubes: Fundamentals of Theory, Optics andTransport Devices", Eds: S.V. Rotkin, S. Subramoney; in NanoScience and Technology Series, Springer Verlag GmbH & Co. KG. (2005), ISBN: 978-3-540-23110-3.
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2. H. Kuzmany, M. Hulman, R. Pfeiffer, and F. Simon. "Raman scattering of carbon nanotubes",
in V. N. Popov and P. Lambin, editors, Carbon Nanotubes—Proceedings of the NATO Advanced Study Institute on Carbon Nanotubes: from Basic Research to Nanotechnology, held in Sozopol, Bulgaria, 21-31 May 2005, pp. 89–120. Springer, 2006.
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3. Ferenc Simon "Recent advances in the electronic and vibrational studies of carbon nanotubes using fullerenes as local probes",
in "Progress in Fullerene Research", ed. Milton Lang
Nova Science Publishers, 2007, ISBN 978-1-60021-841-5, pp. 145-203.
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4. Ferenc Simon "Isotope Engineering in Nanotube Research",
in "Handbook of Nanophysics: Nanotubes and Nanowires ", ed. Klaus Sattler
Taylor & Francis Group, 2009, ISBN: 9781420075427
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5. B. Dora and F. Simon "Tomonaga-Luttinger Liquid Behavior in Carbon Nanotubes; Theory and Solid State Spectroscopy",
in "Advances in Condensed Matter and Materials Research, Volume 6", eds. Hans Geelvinck and Sjaak Reynst
Nova Science Publishers 2010, ISBN: 978-1-60741-959-4
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6. F. Simon and M. Monthioux "Fullerenes inside SWCNTs: the peapods",
in "Carbon Meta-Nanotubes: Synthesis, Properties and Applications", ed. Marc Monthioux
Wiley Publisher, 2011 Print ISBN: 9780470512821, Online ISBN: 9781119954743
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Journal papers
  • 1. A. Jánossy, F. Simon,T. Fehér, A. Rockenbauer, L. Korecz, C. Chen, A.J.S. Chowdhury, J.W. Hodby: Antiferromagnetic domains in (Gd doped) YBa2Cu3O6+x probed by Gd3+ ESR,
    Physical Review B 59, 1176 (1999).


  • 2. F. Simon, A. Rockenbauer, T. Fehér, A. Jánossy, C. Chen, A.J.S. Chowdhury, J.W. Hodby: Measurement of the Gd-Gd exchange and dipolar interactions in Gd0.01Y0.99Ba2Cu3O6
    Physical Review B 59, 12072 (1999).


  • 3. F. Simon, D. Arcon, N. Tagmatarchis, S. Garaj, L Forró and K. Prassides: ESR signal in azafullerene (C59N)2 induced by thermal homolysis
    J. Phys. Chem. A., 103, 6969 (1999).


  • 4. F. Simon, A. Jánossy, F. Murányi, T, Fehér, Y. Iwasa, H. Shimoda, L. Forró: Antiferromagnetic and normal state properties of NH3K3C60
    Physical Review B 61, 3826 (2000).


  • 5. N. M. Nemes, J. E. Fischer, G. Baumgartner, L. Forró, T. Fehér, G. Oszlányi, F. Simon, A. Jánossy: Conduction electron spin resonance in the superconductor K3C60
    Physical Review B 61, 7118 (2000).


  • 6. András Jánossy, Ferenc Simon, Titusz Fehér: Comment on "Magnetoresistance anomalies in antiferromagnetic YBa2Cu3O6+x: Fingerprints of charged stripes"
    Physical Review Letters, 85, 474 (2000).


  • 7. Titusz Fehér, András Jánossy, Gábor Oszlányi, Ferenc Simon, Bogdan Dabrowski, Piotr W. Klamut, Mladen Horvatic, Grant V.M. Williams Magnetic field induced low energy spin excitations in YBa2Cu4O8 as measured by high frequency Gd3+ ESR
    Physical Review Letters, 85, 5627 (2000).


  • 8. Ferenc Fülöp, Antal Rockenbauer, Ferenc Simon, Sándor Pekker, László Korecz, Slaven Garaj, András Jánossy: Azafullerene C59N, a Stable Free Radical Substituent in Crystalline C60
    Chemical Physics Letters, 334, 233 (2001).


  • 9. F. Simon, A. Jánossy, T. Fehér, F. Murányi, S. Garaj, L. Forró, C. Petrovic, S. L. Bud'ko, G. Lapertot, V. G. Kogan, P. C. Canfield: Anisotropy of Superconducting MgB2 as Seen in Electron Spin Resonance and Magnetization Data"
    Physical Review Letters. 87, 047002 (2001).


  • 10. Ferenc Simon, Slaven Garaj, László Forró: Comment on "Low temperature magnetic instabilities in triply charged fulleride polymers"
    Physical Review Letters 87, 129703 (2001).


  • 11. Titusz Fehér, András Jánossy, Gábor Oszlányi, Ferenc Simon, Bogdan Dabrowski, Piotr W. Klamut, Mladen Horvatic, Grant V.M. Williams
    Physical Review Letters, 87, 9702 (2001).


  • 12. V. A. Atsarkin, V.V. Demidov, F. Simon, R. Gaal, Y. Moritomo, K. Conder, A. Janossy, L. Forro: "Electron spin relaxation in CMR manganites: absence of critical acceleration"
    Journal of magnetism and magnetic materials, 258, 256 (2003).


  • 13. F. Simon, V. A. Atsarkin, V. V. Demidov, R. Gaal, Y. Moritomo, M. Miljak, A. Janossy, L. Forro: "Electron spin resonance and relaxation studies of double-layered manganites"
    Phys. Rev. B, 67, 224433 (2003).


  • 14. F. Simon, H. Kuzmany, H. Rauf, T. Pichler, J. Bernardi, H. Peterlik, L. Korecz, F. Fülöp, A. Janossy, "Low temperature fullerene encapsulation in single wall carbon nanotubes: synthesis of N@C60@SWCNT",
    Chemical Physics Letters 383, 362 (2004).


  • 15. Kuzmany H, Kukovecz A, Simon F, Holzweber A, Kramberger C, Pichler T:
    "Functionalization of carbon nanotubes",
    Synthetic Metals 141, 113 (2004).


  • 16. F. Muranyi, F. Simon, F. Fülöp, A. Janossy: "A longitudinally detected high-field ESR spectrometer for the measurement of spin-lattice relaxation times",
    Journal of Magnetic Resonance 167, 221 (2004).


  • 17.R. Pfeiffer, Ch. Kramberger, F. Simon, H. Kuzmany, V. N. Popov, H. Kataura, Interaction between concentric Tubes in DWCNTs,
    Eur. Phys. J. B. 42, 345 (2004).


  • 18.A. Rockenbauer, G. Csányi, F. Fülöp, S. Garaj, L. Korecz, R. Lukács, F. Simon, L. Forró, S. Pekker, A. Jánossy: Electron delocalization and dimerization in solid C59N doped C60 fullerene
    Phys. Rev. Lett. 94, 066603 (2005).


  • 19.F. Simon, F. Fülöp, A. Rockenbauer, L. Korecz, and H. Kuzmany: Highly 13C isotope enriched azafullerene, C59N, for nuclear spin labelling
    Chem. Phys. Lett. 404, 85 (2005).


  • 20.F. Simon and F. Murányi: ESR spectrometer with a loop gap resonator for cw and time resolved studies in a superconducting magnet
    J. Magn. Res. 173, 288 (2005).


  • 21.Kuzmany H, Pfeiffer R, Simon F, Kramberger C, Hulman M, Costa P: Physics and chemistry inside nanotubes
    FULLERENES NANOTUBES AND CARBON NANOSTRUCTURES 13, 179 (2005).

  • 22.Simon F, Kukovecz A, Kramberger C, Pfeiffer R, Hasi F, Kuzmany H, and Kataura H: Diameter selective reaction processes of single-wall carbon nanotubes
    Physical Review B 71,165439 (2005).


  • 23.R. Pfeiffer, H. Kuzmany, F. Simon, S. N. Bokova, E. Obraztsova: “Resonance Raman scattering from phonon overtones in double-wall carbon nanotubes”,
    Phys. Rev. B 71, 155409 (2005).


  • 24.F. Simon, Ch. Kramberger, R. Pfeiffer, H. Kuzmany, V. Zólyomi, J. Kürti, P. M. Singer, and H. Alloul: Isotope Engineering of Carbon Nanotube Systems,
    Phys. Rev. Lett 95, 017401 (2005).


  • 25.F. Simon, A. Janossy, T. Feher, F. Muranyi, S. Garaj, L. Forro, C. Petrovic, S. Bud'ko, R. A. Ribeiro, and P. C. Canfield: Magnetic field induced density of states in MgB2: Spin susceptibility measured by conduction electron spin resonance,
    Phys. Rev. B 72, 012511 (2005).


  • 26. F. Simon, A. Kukovecz, Z. Konya, R. Pfeiffer, and H. Kuzmany: Highly defect-free inner tubes in CVD prepared double wall carbon nanotubes
    Chem. Phys. Lett. 413, 506 (2005).


  • 27.F. Hasi, F. Simon, and H. Kuzmany: Reversible hole engineering in single-wall carbon nanotubes
    J. Nanoscience and Nanotechnology 5,1785-1791 (2005).


  • 28.R. Pfeiffer, F. Simon, H. Kuzmany and V. N. Popov: Fine structure of the radial breathing mode of double-wall carbon nanotubes,
    Phys. Rev. B 72, 161404 (2005).


  • 29.P.M. Singer, P. Wzietek, H. Alloul, F. Simon, and H. Kuzmany: NMR Evidence for Gapped Spin Excitations in Metallic Carbon Nanotubes,
    Phys. Rev. Lett. 95, 236403 (2005).


  • 30. H. Kuzmany, R. Pfeiffer, and F. Simon: The growth of nanophases in the clean room inside single-wall carbon nanotubes,
    Synth. Met. 155, 690-693 (2005).


  • 31.F. Simon, H. Kuzmany, J. Bernardi, F. Hauke, and A. Hirsch: Encapsulating C59N azafullerene derivatives inside single-wall carbon nanotubes
    Carbon 44, 1958-1962 (2006).


  • 32.F. Simon and H. Kuzmany: Growth of single-wall carbon nanotubes from 13C isotope labelled organic solvents inside single wall carbon nanotube hosts
    Chem. Phys. Lett. 425,85-88 (2006).


  • 33.Ferenc Simon, Rudolf Pfeiffer, and Hans Kuzmany :Temperature dependence of optical excitation life-time and band-gap in chirality assigned semiconducting single-wall carbon nanotubes
    Phys. Rev. B 74, 121411(R) (2006).


  • 34. F. Simon, H. Kuzmany, B. Nafradi, T. Feher, L. Forro, F. Fulop, A. Janossy, A. Rockenbauer, L. Korecz, F. Hauke, and A. Hirsch: Magnetic fullerenes inside single-wall carbon nanotubes
    Phys. Rev. Lett. 97, 136801 (2006).


  • 35.K. Kamaras, K. Thirunavukkuarasu, C. A. Kuntscher, M. Dressel, F. Simon, H. Kuzmany, D. A. Walters, and D. A. Moss: Far- and mid-infrared anisotropy of magnetically aligned single-wall carbon nanotubes studied with synchrotron radiation
    Infrared Phys. Techn. 49, 35 (2006).


  • 36.V. Zolyomi, A. Rusznyak, J. Kurti, A. Gali, F. Simon, H. Kuzmany, A. Szabados, and P. R. Surjan: Semiconductor-to-metal transition of double walled carbon nanotubes induced by inter-shell interaction
    Phys. Stat. Sol. B 243, 3476 (2006).


  • 37.R. Pfeiffer, F. Simon, H. Kuzmany, V. N. Popov, V. Zolyomi, and J. Kurti: Tube-tube interaction in double-wall carbon nanotubes
    Phys. Stat. Sol. B 243, 3268 (2006).


  • 38.F. Simon, H. Kuzmany, F. Fulop, A. Janossy, J. Bernardi, F. Hauke, and A. Hirsch: Encapsulating C59N azafullerenes inside single-wall carbon nanotubes
    Phys. Stat. Sol. B 243, 3263 (2006).


  • 39.P. M. Singer, P. Wzietek, H. Alloul, F. Simon and H. Kuzmany: NMR study of spin excitations in carbon nanotubes
    Phys. Stat. Sol. B 243, 3111 (2006).


  • 40.B. Nafradi, N. M. Nemes, T. Feher, L. Forro, Y. Kim, J. E. Fischer, D. E. Luzzi, F. Simon, and H. Kuzmany: Electron spin resonance of single-walled carbon nanotubes and related structures
    Phys. Stat. Sol. B 243, 3106 (2006).


  • 41.H. Rauf, T. Pichler, R. Pfeiffer, F. Simon, H. Kuzmany, and V. N. Popov: Detailed analysis of the Raman response of n-doped double-wall carbon nanotubes
    Phys. Rev. B 74, 235419 (2006).


  • 42.F. Simon: Studying carbon nanotubes through encapsulation: from optical methods till magnetic resonance
    J. Nanosci. and Nanotechn. 7, 1197 (2007).


  • 43.M. Rümmeli, M Löffler, C. Kramberger, F. Simon, F. Fülöp, O. Jost, R. Schönfelder, A. Grüneis, T. Gemming, W. Pompe, B. Büchner, and T. Pichler: Laser evaporation synthesis of isotope engineered singe wall carbon nanotubes with non ferromagnetic catalysts
    J. Phys. Chem. C 111, 4094 (2007).


  • 44.S. de Brion, C. Darie, M. Holzapfel, D. Talbayev, L. Mihaly, F. Simon, A. Janossy, G. Chouteau: Spin excitations in the antiferromagnet NaNiO2
    Phys. Rev. B 75, (2007).


  • 45.V. Zolyomi, F. Simon, A. Rusznyak, R. Pfeiffer, H. Peterlik, H. Kuzmany, and J. Kurti: Inhomogeneity of $^{13}$C isotope distribution in isotope engineered carbon nanotubes: Experiment and theory
    Phys. Rev. B 75, 195419 (2007).


  • 46.F. Simon, F. Murányi, T. Fehér, A. Jánossy, L. Forró, C. Petrovic, S.L. Bud'ko, P.C. Canfield: Spin-lattice relaxation time of conduction electrons in
    Phys. Rev. B 75, 024519 (2007).


  • 47.H: Kuzmany, W. Plank, Ch. Chaman, R.Pfeiffer, F. Hasi, F. Simon, G. Rotas, G. Pagona, and N. Tagmatarchis: Raman scattering from nanomaterials encapsulated into single wall carbon nanotubes
    J. Ram. Spec. 38, 704 (2007).


  • 48.Ferenc Simon, Herwig Peterlik, Rudolf Pfeiffer, Johannes Bernardi, and Hans Kuzmany: Fullerene release from the inside of carbon nanotubes: A possible route toward drug delivery
    Chem. Phys. Lett. 445, 288 (2007).


  • 49.B. Dóra, M. Gulácsi, F. Simon, and H. Kuzmany: Spin gap and Luttinger liquid description of the NMR relaxation in carbon nanotubes
    Phys. Rev. Lett. 99, 166402 (2007).


  • 50.D. Quintavalle, F. Simon, A. Jánossy, G. Klupp, K. Kamarás, F. Borondics, and S. Pekker: The Fulleride Polymer Mg5C60
    Phys. Stat. Sol. B 244, 3853-3856 (2007).


  • 51.F. Simon, D. Quintavalle, A. Jánossy, B. Náfrádi, L. Forró, H. Kuzmany, F. Hauke, A. Hirsch, J. Mende, and H. Kuzmany: Metallic bundles of single-wall carbon nanotubes probed by electron spin resonance
    Phys. Stat. Sol. B 244, 3885-3889 (2007).


  • 52.W. Plank, H. Kuzmany, F. Simon, T. Saito, and N. Tagmatarchis: Fullerene derivatives encapsulated in carbon nanotubes
    Phys. Stat. Sol. B 244, 4074-4077 (2007).


  • 53.V. Zólyomi, F. Simon, Á. Rusznyák, R. Pfeiffer, H. Peterlik, H. Kuzmany, and J. Kürti: The effects of inhomogeneous isotope distribution on the vibrational properties of isotope enriched double wall carbon nanotubes
    Phys. Stat. Sol. B 244, 4257-4260 (2007).


  • 54.J. Kürti, V. Zólyomi, J. Koltai, F. Simon, R. Pfeiffer, and H. Kuzmany: Curvature effects in the D* band of small diameter carbon nanotubes
    Phys. Stat. Sol. B 244, 4261-4264 (2007).


  • 55.H. Kuzmany, W. Plank, R. Pfeiffer, and F. Simon: Raman scattering from double-walled carbon nanotubes
    J. Raman Spect. 39, 134-140 (2008).


  • 56.D. Quintavalle, F. Borondics, G. Klupp, A. Baserga, F. Simon, A. Janossy, K. Kamaras, and S. Pekker: Structure and properties of the stable two-dimensional conducting polymer Mg5C60
    Phys. Rev. B 77, 155431 (2008)


  • 57. V. Zólyomi, J. Koltai, Á. Rusznyák, J. Kürti, Á. Gali, F. Simon, H. Kuzmany, Á. Szabados, and P. R. Surján:Intershell interaction in double walled carbon nanotubes: Charge transfer and orbital mixing
    Phys. Rev. B 77, 245403 (2008)


  • 58. S. Tóth, D. Quintavalle, B. Náfrádi, L. Korecz, L. Forró, and F. Simon: Enhanced thermal stability and spin-lattice relaxation rate of N@C-60 inside carbon nanotubes
    Phys. Rev. B 77, 214409 (2008)


  • 59.B. Dóra, M. Gulácsi, J. Koltai, V. Zólyomi, J. Kürti, and F. Simon: Electron Spin Resonance Signal of Luttinger Liquids and Single-Wall Carbon Nanotubes
    Phys. Rev. Lett. 101, 106408 (2008).


  • 60.C. A. Kuntscher, K. Thirunavukkuarasu, K. Kamaras, F. Simon F, D. A. Walters DA: Infrared microreflectance study of the pressure effect on the structural properties of magnetically aligned single-wall carbon nanotubes
    Phys. Stat. Sol. B 245, 2288 (2008).


  • 61.B. Dora, M. Gulacsi, F. Simon, P. Wzietek, H. Kuzmany: Luther-Emery liquid in the NMR relaxation rate of carbon nanotubes
    Phys. Stat. Sol. B 245, 2159 (2008).


  • 62.S. Toth, D. Quintavalle, B. Nafradi, L. Forro, L. Korecz, A. Rockenbauer, T. Kalai, K. Hideg, F. Simon: Stability and electronic properties of magnetic peapods
    Phys. Stat. Sol. B 245, 2034 (2008).


  • 63.F. Simon, M. Galambos, D. Quintavalle, B. Nafradi, L. Forro, J. Koltai, V. Zolyomi, J. Kurti, N. M. Nemes, M. H. Rummeli, H. Kuzmany, T. Pichler: Electron spin resonance in alkali doped SWCNTs
    Phys. Stat. Sol. B 245, 1975 (2008).


  • 64.R. Pfeiffer, H. Peterlik, H. Kuzmany, F. Simon, K. Pressi, P. Knoll, M. H. Rummeli, H. Shiozawa, H. Muramatsu, Y. A. Kim, T. Hayashi, M. Endo: A detailed comparison of CVD grown and precursor based DWCNTs
    Phys. Stat. Sol. B 245, 1943 (2008).


  • 65.F. Simon, B. Dora, F. Muranyi, A. Janossy, S. Garaj, L. Forro, S. Bud'ko S, C. Petrovic, P. C. Canfield: Generalized Elliott-Yafet Theory of Electron Spin Relaxation in Metals: Origin of the Anomalous Electron Spin Lifetime in MgB2
    Phys. Rev. Lett. 101, 177003 (2008).


  • 66.N. M. Nemes, M. Garcia-Hernandez, Z. Szatmari, T. Feher, F. Simon, C. Visani, V. Pena, C. Miller, J. Garcia-Barriocanal, F. Bruno, Z. Sefrioui, C. Leon, J. Santamaria: Thickness Dependent Magnetic Anisotropy of Ultrathin LCMO Epitaxial Thin Films
    IEEE TRANSACTIONS ON MAGNETICS 44, 2926 (2008).


  • 67.B. Dora and F. Simon: Electron-Spin Dynamics in Strongly Correlated Metals
    Phys. Rev. Lett. 102, 137001 (2009).


  • 68.B. Dora and F. Simon: Unusual Hyperfine Interaction of Dirac Electrons and NMR Spectroscopy in Graphene
    Phys. Rev. Lett. 102, 197602 (2009).


  • 69.D. Quintavalle, F. Simon, G. Klupp, L. F. Kiss, G. Bortel, S. Pekker, A. Janossy: Metallic behavior in the potassium-doped fullerene-cubane copolymer
    Phys. Rev. 80, 033403 (2009).


  • 70.B. Dóra, M. Gulácsi, Á. Rusznyák, J. Koltai, V. Zólyomi, J. Kürti, F. Simon: Single-wall carbon nanotubes: spintronics in the Luttinger liquid phase
    Phys. Stat. Sol. B 246, 2744 (2009).


  • 71.M. Galambos, G. Fábián, F. Simon, L. Ciric, L. Forró, L. Korecz, A. Rockenbauer, J. Koltai, V. Zólyomi, Á. Rusznyák, J. Kürti, N. M. Nemes, B. Dóra, H. Peterlik, R. Pfeiffer, H. Kuzmany, T. Pichler: Identifying the electron spin resonance of conduction electrons in alkali doped SWCNTs
    Phys. Stat. Sol. B 246, 2760 (2009).


  • 72.C. Visani, N. M. Nemes, M. Rocci, Z. Sefrioui, C. Leon, S. G. E. te Velthuis, A. Hoffmann, M. R. Fitzsimmons, F. Simon, T. Feher, M. Garcia-Hernandez, J. Santamaria J: Directionally controlled superconductivity in ferromagnet/superconductor/ferromagnet trilayers with biaxial easy axes
    Phys. Rev. B 81, 094512 (2010).


  • 73.F. Simon, V. Zólyomi, R. Pfeiffer, H. Kuzmany, J. Koltai, and J. Kürti: Unusual Raman dispersion for D and 2D lines in high-curvature single-walled carbon nanotubes revealed by 13C isotope substitution
    Phys. Rev. B 81, 125434 (2010).


  • 74.Y. Ihara, P. Wzietek, H. Alloul, M. H. Ruemmeli, T. Pichler, F. Simon: Incidence of the Tomonaga-Luttinger liquid state on the NMR spin-lattice relaxation in carbon nanotubes
    EPL 90, 17004 (2010).


  • 75.N. M. Nemes, C. Visani, C. Leon, M. Garcia-Hernandez, F. Simon, T. Fehér, S. G. E. te Velthuis, A. Hoffmann, and J. Santamaria: Magnetic memory based on La0.7Ca0.3MnO3/YBa2Cu3O7/La0.7Ca0.3MnO3 ferromagnet/superconductor hybrid structures
    Appl. Phys. Lett. 97, 032501 (2010).


  • 76.B. Dóra, F. Murányi, and F. Simon:Electron spin dynamics and electron spin resonance in graphene
    Eur. Phys. Lett. 92, 17002 (2010).


  • 77.A. Kiss and F. Simon: Theoretical model for the low-temperature ordering of Pr in PrBa2Cu3O6+x
    Phys. Rev. B 82, 174413 (2010).


  • 78.B. Dóra and F. Simon: Hyperfine interaction in graphene: The relevance for spintronics
    Phys. Stat. Sol. B 247, 2935-2940 (2010).


  • 79.F. Simon, C. Kramberger, H. Peterlik, R. Pfeiffer, K. De Blauwe, T. Pichler, H. Kuzmany, K. Yanagi, Y. Miyata, and H. Kataura: Raman response from double-wall carbon nanotubes based on metallicity selected host SWCNTs
    Phys. Stat. Sol. B 247, 2880-2883 (2010).


  • 80.M. Havlicek, W. Jantsch, M. Ruemmeli, R. Schoenfelder, K. Yanagi, Y. Miyata, H. Kataura, F. Simon, H. Peterlik, and H. Kuzmany: Electron spin resonance from semiconductor-metal separated SWCNTs
    Phys. Stat. Sol. B 247, 2851-2854 (2010).


  • 81.G. Fábian, C. Kramberger, A. Friedrich, F. Simon, and T. Pichler: A broadband and high throughput single-monochromator Raman spectrometer: Application for single-wall carbon nanotubes
    Rev. Sci. Instrum. 82, 023905 (2011).


  • 82.P. Szirmai, G. Fabian, B. Dora, J. Koltai, V. Zolyomi, J. Kurti, N. M. Nemes, L. Forro, F. Simon:
    Density of states deduced from ESR measurements on low-dimensional nanostructures; benchmarks to identify the ESR signals of graphene and SWCNTs Phys. Stat. Sol. B 248, 2688-2691 (2011).


  • 83.F. Simon, F. Muranyi, and B. Dora: Theory and model analysis of spin relaxation time in graphene — Could it be used for spintronics?
    Phys. Stat. Sol. B 248, 2631–2634 (2011).


  • 84.G. Fábian, C. Kramberger, A. Friedrich, F. Simon, and T. Pichler: Adaptation of a commercial Raman spectrometer for multiline and broadband laser operation
    Phys. Stat. Sol. B 248, 2581-2584 (2011).


  • 85.C. Kramberger, P. Ayala, H. Shiozawa, F. Simon, A. Friedrich, X. Liu, M. R¨ummeli, Y. Miyata, H. Kataura, P. Hoffmann, and T. Pichler: Disentanglement of the unoccupied electronic structure in metallic and semiconducting C60 peapods
    Phys. Rev. B 83, 195438 (2011).


  • 86.A. Kiss, A. Pályi, Y. Ihara, P. Wzietek, P. Simon, H. Alloul, V. Zólyomi, J. Koltai, J. Kürti, B. Dóra, and F. Simon: Enhanced NMR Relaxation of Tomonaga-Luttinger Liquids and the Magnitude of the Carbon Hyperfine Coupling in Single-Wall Carbon Nanotubes
    Phys. Rev. Lett. 107, 187204 (2011) .


  • 87.Balázs Dóra, Jérôme Cayssol, Ferenc Simon, and Roderich Moessner: Optically Engineering the Topological Properties of a Spin Hall Insulator
    Phys. Rev. Lett. 108, 056602 (2012).


  • 88.G. Fábián, B. Dóra, Á. Antal, L. Szolnoki, L. Korecz, A. Rockenbauer, N. M. Nemes, L. Forró, and F. Simon: Testing the Elliott-Yafet spin-relaxation mechanism in KC8: A model system of biased graphene
    Phys. Rev. B 85, 235405 (2012).


  • 89.P. Szirmai, T. Pichler, O. A. Williams, S. Mandal, C. Bauerle, F. Simon: A detailed analysis of the Raman spectra in superconducting boron doped nanocrystalline diamond
    Phys. Stat. Sol. B 249, 2656-2659 (2012).


  • 90.Anita Karsa, Dario Quintavalle, László Forró, and Ferenc Simon: On the low temperature microwave absorption anomaly in single-wall carbon nanotubes
    Phys. Stat. Sol. B 249, 2487-2490 (2012).


  • 91.A. Chernov, M. Havlicek, W. Jantsch, M. H. Rümmeli, A. Bachmatiuk, K. Yanagi, H. Peterlik, H. Kataura, F. Sauerzopf, R. Resel, F. Simon, H. Kuzmany: Ferromagnetic decoration in metal–semiconductor separated and ferrocene functionalized single-walled carbon nanotubes
    Phys. Stat. Sol. B 249, 2323–2327, (2012).


  • 92.Jérôme Cayssol, Balázs Dóra, Ferenc Simon, and Roderich Moessner: Floquet topological insulators
    Phys. Stat. Sol. Rap. Res. Lett. 7, 101-108 (2013).


  • 93.P. Szirmai, G. Fabian, J. Koltai, B. Nafradi, L. Forro, T. Pichler, O. A. Williams, S. Mandal, C. Bauerle, F. Simon: Observation of conduction electron spin resonance in boron-doped diamond
    Phys. Rev. B 87, 195132 (2013).


    2013

    Peer Reviewed Conference Proceedings
    1.
    F. Simon, A. Jánossy, Y. Ywasa, H. Shimoda, G. Baumgartner, L. Forró: Frequency dependent ESR study of the magnetic phase transition in NH3K3C60
    AIP Conference Proceedings, 442, 296 (1998).

    2.
    N. Cegar, F. Simon, G. Baumgartner, L. Forró, B. Ruzicka, L. Degiorgi, L. Mihály: Electronic properties of the Na2AC60 family (A=K, Rb, Cs)
    AIP Conf. Proc. 486, 64 (1999).

    3.
    A. Jánossy, S. Pekker, F. Simon, F. Fülöp, F. Simon, G. Oszlányi: Electron spin resonance of N@C606- in the fulleride salt Rb6C60
    AIP Conference Proceedings, 544, 199 (2000).


    4. F. Fülöp, A. Rockenbauer, F. Simon, S. Pekker, L. Korecz, S. Garaj, A. Jánossy: Production of C59N:C60 solid solution
    AIP Conference Proceedings, 590, 329 (2001).


    5. Ferenc Fülöp, Ferenc Simon, Antal Rockenbauer, László Korecz, and András Jánossy: Production and characterization of monomeric C59N: A magnetic modification of fullerene
    AIP Conference Proceedings, 591, 11 (2001).


    6. F. Simon, A. Kukovecz, H. Kuzmany: Controlled Oxidation of Single Wall Carbon Nanotubes: a Raman Study
    AIP Conference Proceedings, 685, 185 (2003).


    7. M. Holzweber, Ch. Kramberger, F. Simon, A. Kukovecz, H. Kuzmany, H. Kataura: Catalyst Free Growth of Single Wall Carbon Nanotubes (SWCNTs)
    AIP Conference Proceedings, 685, 306 (2003).


    8. F. Hasi, F. Simon, M. Hulman, H. Kuzmany: Temperature Activated BN Substitution of SWCNT
    AIP Conf. Proc. 685, 370 (2003).


    9. H. Rauf, T. Pichler, F. Simon, and H. Kuzmany: A Raman study of potassium doped double wall carbon nanotubes
    AIP Conf. Proc. 723, 213 (2004).


    10. M. Holzweber, C. Kramberger, F. Simon, R. Pfeiffer, M. Mannsberger, F. Hasi, H. Kuzmany, and H. Kataura: The growth process of nanotubes in nanotubes
    AIP Conf. Proc. 723, 234 (2004).


    11. C. Kramberger, F. Simon, R- Pfeiffer, M. Mannsberger, M. Holzweber, F. Hasi, and H. Kuzmany: Highly diameter selective 13C enrichment in carbon nanotubes
    AIP Conf. Proc. 723, 251 (2004).


    12. A. Gembus, F. Simon, A. Janossy, H. Kuzmany, and K.-P. Dinse: Properties of N@C60 -derived peapods
    AIP Conf. Proc. 723, 259 (2004).


    13. R. Pfeiffer, C. Kramberger, F. Simon, H. Kuzmany, and V. N. Popov: Interaction between Inner and outer tubes in DWCNTs
    AIP Conf. Proc. 723, 263 (2004).


    14. F. Simon, C. Kramberger, R. Pfeiffer, and H. Kuzmany: Single wall carbon nanotube specific 13C isotope enrichment
    AIP Conf. Proc. 723, 268 (2004).


    15. F. Hasi, F. Simon, and H. Kuzmany: Thin films of C60 peapods and double wall carbon nanotubes
    AIP Conf. Proc. 723, 273 (2004).


    16. A. Rockenbauer, Gábor Csányi, F. Fülöp, S. Garaj, L. Korecz, R. Lukács, F. Simon, L. Forró, S. Pekker, and A. Jánossy: Electron delocalization and dimerization in solid C59N doped C60 fullerene
    AIP Conf. Proc. 786, 41 (2005).

    17.
    Ch. Schaman, F. Simon, H. Kuzmany, D. Ajami, K. Hess, R. Herges, O. Dubay, and G. Kresse: Raman Scattering And Electronic Properties Of The Cyclic Anthracene Tetramer (Picotube)
    AIP Conf. Proc. 786, 186 (2005).


    18. F. Simon, R. Pfeiffer, Ch. Kramberger, H. Kuzmany, V. Zólyomi, J. Kürti, P. M. Singer, H. Alloul: Heteronuclear carbon nanotubes
    AIP Conf. Proc. 786, 286 (2005).


    19. B. Corzilius, A. Gembus, K.-P. Dinse, F. Simon, and H. Kuzmany: Carbon Nanotubes Investigated by N@C60 and N@C70 Spin Probes
    AIP Conf. Proc. 786, 291 (2005).


    20. D. A. Lyashenko, A. N. Obraztsov, F. Simon, H. Kuzmany, E. D. Obraztsova, Yu. P. Svirko, and K. Jefimovs: A comparative study of field emission from single- and double-wall carbon nanotubes and carbon peapods
    AIP Conf. Proc. 786, 301 (2005).


    21. R. Pfeiffer, F. Simon, H. Kuzmany, V. N. Popov: A Raman Map of the DWCNT RBM Region
    AIP Conf. Proc. 786, 305 (2005).


    22. F. Hasi, F. Simon, H. Kuzmany, R. Arenal de La Concha, A. Loiseau: Raman Spectroscopy Of Boron Nitride Nanotubes And Boron Nitride - Carbon Composites
    AIP Conf. Proc. 786, 340 (2005).


    Electronic (on-line) publications (http://xxx.lanl.gov)
    1.
    cond-mat/9910303

    2. cond-mat/0002447

    3. cond-mat/0005275

    4. cond-mat/0008213

    5. cond-mat/0010311

    6. cond-mat/0104557

    7. cond-mat/0302620

    8. cond-mat/0310110

    9. cond-mat/0403179

    10. cond-mat/0404110

    11. cond-mat/0406343

    12. cond-mat/0406670

    13. cond-mat/0409051

    14. cond-mat/0411448

    15. cond-mat/0506393

    16. cond-mat/0508217

    17. cond-mat/0510195

    18. cond-mat/0603407

    19. cond-mat/0602636

    20. cond-mat/0603477

    21. cond-mat/0606597

    22. cond-mat/0606686

    23. cond-mat/0608238

    24 . cond-mat/0701789

    25. cond-mat/0704.0466

    26. cond-mat/0707.3348

    27. cond-mat/0801.4783

    28. cond-mat/0805.1113

    29. cond-mat/0808.0818


    Miscellaneous (Thesis)
    1.
    Diplomamunka 1997

    2. PhD 2002

    3. Habilitationsschrift 2006

    4. MTA doktori értekezés Tézisfüzet A4 A5


    Student's works

    2008-2010

    1.
    Tóth Sándor MSc degree work 2008

    2. Fábián Gábor BSc 2009

    3. Dabóczi Mátyás és Márkus Bence diákpályázat 2009

    4. Galambos Máté MSc degree work 2010

    2011

    5. Gábor Fábian MSc degree work 2011

    6. Gyüre Balázs BSc degree work 2011

    7. Szirmai Péter BSc degree work 2011

    2012

    8. Sami Dzsaber summer internship report 2012

    9. Ecsenyi Szilárd BSc degree work 2012

    10. Karsa Anita BSc degree work 2012

    11. Negyedi Milán BSc degree work 2012

    2013

    12. Bernáth Bence BSc degree work 2013

    13. Sami Dzsaber BSc degree work 2013

    14. Iván Dávid BSc degree work 2013

    15. Márkus Bence BSc degree work 2013

    16. Szirmai Péter MSc degree work 2013

    17. Sami Dzsaber TDK 2013 (1st place)

    2014

    18. Balázs Gyüre MSc degree work

    19. Anita Karsa MSc degree work (as co-supervisor)

    20. Milán Negyedi MSc degree work

    21. Julianna Palotás BSc degree work

    22. Lénárd Szolnoki MSc degree work

    23. Dorina Ágner TDK 2014 (distinction) (as co-supervisor)

    24. Bence Bernáth TDK 2014 (3rd place)

    25. Balázs Gyüre TDK 2014 (distinction)

    26. Dávid Iván TDK 2014 (1st place) (as co-supervisor)

    27. Gyula Gyebnár MSc degree work (as co-supervisor)

    28. Ádám Kettinger MSc degree work (as co-supervisor)

    2015

    29. Bence Bernáth MSc degree work

    30. Sami Dzsaber MSc degree work

    31. Dávid Iván MSc degree work (as co-supervisor)

    32. Bence Gábor Márkus MSc degree work

    33. Anna Békési TDK 2015 (as co-supervisor)

    34. Dorina Ágner TDK 2015 (as co-supervisor)

    2016

    35. Dorina Ágner BSc degree work (as co-supervisor)

    36. Anna Békési BSc degree work (as co-supervisor)

    37. Gábor Csosz BSc degree work

    38. Sándor Kollarics BSc degree work

    39. Anett Garami TDK 2016 (as co-supervisor)

    2017

    40. Julianna Palotás MSc 2017

    41. Olivér Sági BSc 2017