⇒Publications ⇒ Patents  

Publications

  1. Probing surface charge fluctuations with solid-state nanopores.
    D. P. Hoogerheide, S. Garaj, and J. A. Golovchenko
    Physical Review Letters     102, 256804 (2009).
  2. The potential and challenges of nanopore sequencing.
    Daniel Branton, David W Deamer, Andre Marziali, Hagan Bayley, Steven A Benner, Thomas Butler, Massimiliano Di Ventra, Slaven Garaj, Andrew Hibbs, Xiaohua Huang, Stevan B Jovanovich, Predrag S Krstic, Stuart Lindsay, Xinsheng Sean Ling, Carlos H Mastrangelo, Amit Meller, John S Oliver, Yuriy V Pershin, J. Michael Ramsey, Robert Riehn, Gautam V Soni, Vincent Tabard-Cossa, Meni Wanunu, Matthew Wiggin, Jeffery A Schloss,
    Nature Biotechnology 26, 1146 (2008).
  3. Generalized Elliott-Yafet Theory of Electron Spin Relaxation in Metals: Origin of the Anomalous Electron Spin Lifetime in MgB2
    F. Simon, B. Dóra, F. Murányi, A. Jánossy, S. Garaj, L. Forró, S. Budko, C. Petrovic, and P. C. Canfield,
    Physical Review Letters     101, 177003 (2008).
  4. NMR evidence for C-60 configurational fluctuations around Na sites in Na2CsC60
    P Matus, H Alloul, G Kriza, V Brouet, P. M Singer, S Garaj, L Forro,
    J Supercond Nov Magn     20 pp. 155-159 (2007)
  5. Influence of local fullerene orientation on the electronic properties of Na2AC60 (A=Cs,Rb,K) compounds
    Peter Matus, Henri Alloul, Gyorgy Kriza, Veronique Brouet, Philip M Singer, Slaven Garaj, L Forro,
    Physical Review B 74 pp. 214509 (2006)
  6. Gate-defined quantum dots on carbon nanotubes
    M. J. Biercuk, S. Garaj, N. Mason, J. M. Chow, C. M. Marcus,
    Nano Letters     5, 1267-1271 (2005)
  7. Dielectric resonator-based resonant structure for sensitive ESR measurements at high hydrostatic pressures
    Andrzej Sienkiewicz, Bertrand Vileno, Slaven Garaj, Marek Jaworski, László Forró,
    Journal of Magnetic Resonance     177, 278-290 (2005).
  8. Magnetic-field-induced density of states in MgB2: Spin susceptibility measured by conduction-electron spin resonance
    F. Simon, A. Janossy, T. Feher, F. Muranyi, S. Garaj, L. Forro, C. Petrovic, S. Bud'ko, R. A. Ribeiro, P. C. Canfield,
    Physical Review B     72, 012511 (2005).
  9. Electron delocalization and dimerization in solid C59N doped C60 fullerene
    A. Rockenbauer, G. Csanyi, F. Fulop, S. Garaj, L. Korecz, R. Lukacs, F. Simon, L. Forro, S. Pekker, A. Janossy,
    Physical Review Letters 94, 066603 (2005).
  10. NMR Studies of Insulating, Metallic, and Superconducting Fullerides : Importance of Correlations and Jahn-Teller Distortions
    V. Brouet, H. Alloul, S. Garaj, L. Forro,
    in Fullerene-Based Materials: Structures and Properties, ed. K. Prassides (Springer-Verlag, Berlin Heidelberg 2004).
  11. Fullerene local order in Na3CsC60 by Na-23 NMR
    P. Matus, H. Alloul, P. M. Singer, V. Brouet, G. Kriza, S. Garaj, L. Forro,
    Applied Magnetic Resonance     27, 133-138 (2004).
  12. The polymer phase of the TDAE-C 60 organic ferromagnet
    Slaven Garaj, Takashi Kambe, Laszlo Forro, Andrzej Sienkiewicz, Motoyasu Fujiwara, Kokichi Oshima,
    Physical Review B     68, 144430 (2003)
  13. Temperature induced de-polymerization in TDAE-C60
    T. Kambe, S. Garaj, L. Forro, M. Fujiwara, K. Oshima,
    Synthetic Metals     133, 697-698 (2003).
  14. Persistence of molecular excitations in metallic fullerides and their role in a possible metal to insulator transition at high temperatures
    V. Brouet, H. Alloul, S. Garaj, and L. Forro,
    Physical Review B     66, 155124 (2002).
  15. Gaps and excitations in fullerides with partially filled bands: NMR study of Na2C60 and K4C60
    V. Brouet, H. Alloul, S. Garaj, and L. Forro,
    Physical Review B     66, 155122 (2002).
  16. Mechanical Purification of Single-Walled Carbon Nanotubes from Catalytic Particles,
    Le Thien-Nga, Klara Hernadi, Edina Ljubovic, Slaven Garaj, and Laszlo Forro,
    Nano Letters     2, 1349 - 1352 (2002).
  17. Application of Electron Spin Resonance in Biophysics: from Rapid Mixing Stopped-Flow to High-Hydrostatic Pressure ESR
    Andrzej Sienkiewicz, Marek Jaworski, Slaven Garaj, Laszlo Forro, Charles P. Scholes,
    Defect Diffus. F. 218, 1-17 (2002).
  18. Field emission properties of carbon nanohorn films,
    J.-M. Bonard, R. Gaal, S. Garaj, L. Thien-Nga, L. Forro, K. Takahashi, F. Kokai, M. Yudasaka, and S. Iijima,
    Journal of Applied Physics    , 91, 10107 (2002).
  19. Instrumental recording of electrophonic sounds from Leonid fireballs
    G. Zgrablic, D. Vinkovic, S. Gradecak, K. Damir; N. Biliskov, N. Grbac, Z. Andreic, S. Garaj,
    Journal of Geophysical Research     107, 10.1029/2001JA000310 (2002).
  20. Global Electrophonic Fireball Survey: a review of witness reports - I,
    D. Vinkovic, S. Garaj, P. L. Lim, D. Kovacic, G. Zgrablic, Z. Andreic,
    WGN     30, 244-257 (2002).
  21. Comment on "Low Temperature Magnetic Instabilities in Triply Charged Fulleride Polymers"
    Ferenc Simon, Slaven Garaj, and Laszlo Forro
    Physical Review Letters     87, 12973 (2001).
  22. Electronic properties of nanohorns
    Slaven Garaj, Richard Gaál, J.-M. Bonard, L. Thien-Nga, L. Forró, K. Takahashi, F. Kokai, M. Yudasaka, and S. Iijima,
    in Electronic Properties of Molecular Nanostructures, ed. Kuzmany, Mering, Roth (American Institute of Physics 2001).
  23. Anisotropy of Superconducting MgB2 as Seen in Electron Spin Resonance and Magnetization Data,
    F. Simon, A. Janossy, T. Feher F. Muranyi, S. Garaj, L. Forri, C. Petrovic, S. L. Bud'ko, G. Lapertot, V. G. Kogan, and P. C. Canfield
    Physical Review Letters 87, 047002 (2001).
  24. Role of Dynamic Jahn-Teller Distortions in Na2C60 and Na2CsC60 Studied by NMR,
    V. Brouet, H. Alloul, Thien-Nga Le, S. Garaj, and L. Forro
    Physical Review Letters     86, 4680-4683 (2001).
  25. Production of C59N:C60solid solution
    26. Ferenc Fulop, Antal Rockenbauer, Ferenc Simon, SAndor Pekker,3 LAszlO Korecz, Slaven Garaj, and AndrAs Janossy,
    in Nanonetwork materials: Fullerenes, Nanotubes, and Related Systems, ed. S. Saito et al. (American Institute of Physics, 2001).
  26. Azafullerene C59N, a stable free radical substituent in crystalline C60,
    Ferenc Fulop, Antal Rockenbauer, Ferenc Simon, Sandor Pekker, Laszlo Korecz, Slaven Garaj and Andras Janossy,
    Chemical Physics Letters     334, 233-237 (2001).
  27. Electronic properties of carbon nanohorns studied by ESR,
    S. Garaj, L. Thien-Nga, R. Gaal, L. Forro, K. Takahashi, F. Kokai, M. Yudasaka, and S. Iijima,
    Physical Review B 62, 17115-17119 (2000).
  28. Electronic and mechanic properties of carbon nanotubes, in Science and Application of nanotubes
    L. Forro, J-P. Salvetat, J.-M. Bonard, R. Bacsa, N. H. Thompson, S. Garaj, L. Thien-Nga, R. Gaal, A. Kulik, B. Ruzicka, L. Degiorgi, A. Bachtold, C. Schonenberger, S. Pekker, K. Hernadi,
    in Science and Application of Nanotubes, ed. Tomanek and Enbody, p. 297-320 (Kluwer Academic / Plenum Publishers, New York, 2000).
  29. Global Electrophonic Fireball Survey,
    Vinkovic, D., Andreic, Z, Garaj, S., Kovacic, D., Mladinov, M., Zgrablic, G.
    WGN 28, 48-53, (2000).
  30. Pressure and doping dependence of electronic properties of carbon nanotube ropes R. Gaál, J.-P. Salvetat, J.-M. Bonard, L. Thien-Nga, S. Garaj, L. Forró, B. Ruzicka, and L. Degiorgi
    in Electronic properties of novel mateirals - molecular nanostructures, ed. H. Kuzmany (American Institute of Physics, 2000)
  31. Observational detection of meteor-produced VLF electromagnetic radiation,
    S. Garaj, D. Vinkovic, G. Zgrablic, D. Kovacic, S. Gradecak, N. Biliskov, N. Grbac and Z. Andreic,
    Fizika A     8, 91-98 (2000).
  32. Singlet Oxygen Generation by C60 and C70 - an ESR study
    A. Sienkiewicz, S. Garaj, E. Bialkowska, and L. Forro,
    in Electronic Properties of Novel Materials - Molecular Nanostructures, ed. H. Kuzmany, p. 63 (American Institute of Physics, 2000).
  33. ESR signal in Azafullerene (C59N)2 induced by thermal homolysis,
    Ferenc Simon, Denis Arcon, Nikos Tagmatarchis, Slaven Garaj, Laszlo Forro, and Kosmas Prassides
    Journal of Physical Chemistry A     103, 6969-6971 (1999).

Patents

  1. Carbon nanopore synthesis for nanopore devices
    Patent Number: US20090136682
    Publication Date: 2009-05-28
    2. Licenced by: Oxford Nanopore Technologies Ltd
  2. Field Electron Emitting Device
    Patent Number: US20050116602
    Publication date: 2003-03-20.