Project publications in peer-reviewed journals

  1. T. Kaplas, R. Ismagilov, A. Obraztsov, and Yu. Svirko, “Characterization of nanographite films by specular gloss measurements”, Journal of Nanoelectronics and Optoelectronics 7, 54-59 (2012).
  2. T. Kaplas and Yu. Svirko, “Direct deposition of semitransparent conducting pyrolytic carbon films,” Journal of Nanophotonics 6, 061703 (2012)
  3. T. Kaplas, M. Silvennoinen, Kimmo Paivasaari, Y. Svirko, Self-assembled two-dimensional graphene grating on a dielectric substrate, Appl. Phys. Lett. 102(21), 211603-3 (2013).
  4. P. A. Obraztsov, T. Kaplas, S. V. Garnov, M. Kuwata-Gonokami, A. N. Obraztsov, Yu. P. Svirko, “All-optical control of ultrafast photocurrents in unbiased graphene,” Sciemtific Reports, 4, 4007 (2014).
  5. T. Kaplas, and Y. Svirko, “Self-assembled graphene on a dielectric micro- and nanostructures”, Carbon, 70, 273-278 (2014)
  6. Aleksey A. Zolotukhin, Alexander N. Obraztsov// Incredible carbon. A journey into the nano-forest// Materials Today 16(2013)351-352.
  7. Aleksey A. Zolotukhin, Matvey A. Dolganov, Alexander N. Obraztsov Nanodiamond films with dendrite structure formed by needle crystallites, Diamond & Related Materials 37 (2013) 64–67.
  8. Rinat R. Ismagilov, Petr V. Shvets, Aleksey A. Zolotukhin, and Alexander N. Obraztsov, Growth of a Carbon Nanotube Forest on Silicon using Remote Plasma CVD, Chem. Vap. Deposition 19, 332–337 (2013).
  9. Alexander N. Obraztsov, Victor I. Kleshch, Elena A. Smolnikova, A nano-graphite cold cathode for an energy-efficient cathodoluminescent light source, Beilstein J. Nanotechnol. 4, 493–500 (2013).
  10. A. V. Tyurnina, K. Tsukagoshi, H. Hiura, A. N. Obraztsov “Structural and charge transport characteristics of graphene layers obtained from CVD thin film and bulk graphite materials”, Carbon 52, 49-55 (2013).
  11. R. R. Ismagilov, A. A. Zolotukhin, P. V. Shvets, and A. N. Obraztsov, “Spatially Resolved In Situ Diagnostics for Plasma-Enhanced Chemical Vapor Deposition Carbon Film Growth”, Journal of Nanoelectronics and Optoelectronics 7, 90–94 (2012)
  12. M. Harb, C. Schmising, E. von Korff, A. Jurgilaitis, I. Maximov, P. V. Shvets, A. N. Obraztsov, D. Khakhulin, M. Wulff, J. Larsson, "The c-axis thermal conductivity of graphite film of nanometer thickness measured by time resolved X-ray diffraction", Applied Phys. Lett. 101, 233108 (2012).
  13. E. A. Vasil'eva, V. I. Kleshch, A. N. Obraztsov, “Effect of vacuum level on field emission from nanographite films” Technical Physics 57, 1003-1007 (2012).
  14. S. A. Lyashenko, A. P. Volkov, A. N. Obraztsov, “Limitation of the Current from Nanographite Multiemitter Field-Emission Cathodes” Technical Physics 57, 251-255 (2012).
  15. P. V. Shvets, J.-M. Soon, A. Verger, and A. N. Obraztsov “Graphene Formation on Surfaces of Single Crystal Metals” J. Nanoelectron. Optoelectron. 8, 46-51 (2013).
  16. I. V. Obronov, V. I. Kleshch, E. A. Smolnikova, D. A. Bandurin, and A. N. Obraztsov “Field Emission Properties of Single-Walled Carbon Nanotube Films” J. Nanoelectron. Optoelectron. 8, 71-74 (2013).
  17. V. O. Borisov, R. R. Ismagilov, A. A. Zolotukhin, and A. N. Obraztsov, “Fabrication of Carbon Nanomaterials by Hot Filament Chemical Vapor Deposition” J. Nanoelectron. Optoelectron. 8, 100-105  (2013)
  18. D. A. Bandurin, V. I. Kleshch, E. A. Smolnikova, I. V. Obronov, A. G. Nasibulin, E. I. Kauppinen, and A. N. Obraztsov “Scanning Anode Field Emission Microscopy of Nanocarbons” J. Nanoelectron. Optoelectron. 8, 114-118 (2013).
  19. P. Vincent, A. Ayari, P. Poncharal, T. Barois, S. Perisanu, V. Gouttenoire et S.T. Purcell "Carbon Nanotube Nanoradios : The Field Emission and Transistor Configurations" accepté, Comptes Rendus de l'Académie de Sciences Française, 12 pages. Special Issue Comptes Rendus Physique 13, 395  (2012).
  20. Siria, P. Poncharal, A.-L. Biancre, R. Fulcrand, S.T. Purcell, and L. Bocquet, "Giant Osmotic cross-currents recorded in a single transmembrane boron-nitride nanotube", Nature 494, 455–458 (2013).
  21. T. Barois, A. Ayari,_ P. Vincent, S. Perisanu, P. Poncharal, and S. T. Purcell, Ultra low power consumption for self-oscillating NEMS constructed by contacting two nanowires, Nanoletters, 13 1451–1456 (2013).
  22. T. W. Chamberlain, J. Biskupek, G.A.Rance, A. Chuvilin,T. J. Alexander, E. Bichoutskaia, U. Kaiser, A. N. Khlobystov, Size, Structure, and Helical Twist of Graphene Nanoribbons Controlled by Confinement in Carbon Nanotubes. Acs Nano  6, 3943-3953 (2012).
  23. N. A. Kiselev, A. S. Kumskov, V. G. Zhigalina, N. I. Verbitskiy, L. V. Yashina, A. L. Chuvilin, A. L. Vasiliev, A. A. Eliseev, The structure and electronic properties of copper iodide 1D nanocrystals within single walled carbon nanotubes. J. Phys. : Conf. Ser. 471 012035 (2013).
  24. A. S. Kumskov, V. G. Zhigalina, A. L. Chuvilin, N. I. Verbitskiy, A. G. Ryabenko, D. D. Zaytsev, A. A. Eliseev, N. A. Kiselev, The structure of 1D and 3D CuI nanocrystals grown within 1.5-2.5 nm single wall carbon nanotubes obtained by catalyzed chemical vapor deposition. Carbon 50, 4696-4704 (2012).
  25. J. C. Meyer, F. Eder, S. Kurasch, V. Skakalova, J. Kotakoski, H. J. Park, S. Roth, A. L. Chuvilin, S. Eyhusen, G. Benner, A. Krasheninnikov, U. Kaiser, Accurate Measurement of Electron Beam Induced Displacement Cross Sections for Single-Layer Graphene. Physical Review Letters 108, 196102 (2012)
  26. J. C. Meyer, F. Eder, S. Kurasch, V. Skakalova, J. Kotakoski, H. J. Park, S. Roth, A. L. Chuvilin, S. Eyhusen, G. Benner, A. Krasheninnikov, U. Kaiser, Accurate Eratum: Measurement of Electron Beam Induced Displacement Cross Sections for Single-Layer Graphene (108, 196102 2012). Physical Review Letters 110, 239902 (2013)
  27. A. Santana, A. Zobelli, J. Kotakoski, A. Chuvilin, E. Bichoutskaia, Inclusion of radiation damage dynamics in high-resolution transmission electron microscopy image simulations: The example of graphene. Physical Review B 87, 094110 (2013)
  28. E. K. Tusseeva, O. M. Zhigalina, A. L. Chuvilin, A. V. Naumkin, O. A. Khazova, Ultradisperse catalytic layers supported by nanotubes and poly(diallyldimethylammonium)chloride polymer. Russian Journal of Electrochemistry 49, 265-271 (2013).
  29. D. Wei, S. Haque, P. Andrew, J. Kivioja, T. Ryhaenen, A. Pesquera, A. Centeno, B. B. Alonso, A. Chuvilin, A. Zurutuza, A., Ultrathin rechargeable all-solid-state batteries based on monolayer graphene. Journal of Materials Chemistry A 1, 3177-3181 (2013).
  30. J. Zubeltzu, A. Chuvilin, F. Corsetti, A. Zurutuza, E. Artacho, Knock-on damage in bilayer graphene: Indications for a catalytic pathway. Physical Review B 88 245407 (2013).
  31. P. Vincent, A. Ayari, P. Poncharal, T. Barois, S. Perisanu, V. Gouttenoire, S. T. Purcell, S.T., Carbon nanotube nanoradios: The field emission and transistor configurations, Comptes Rendus Physique 13, 395-409 (2012).
  32. M. Choueib, R. Martel, S. C. Cojocaru, A. Ayari, P. Vincent, S. T. Purcell, Current Saturation in Field Emission from H-Passivated Si Nanowires, ACS Nano 6, 7463-7471 (2012).
  33. Barois, T., Ayari, A., Siria, A., Perisanu, S., Vincent, P., Poncharal, P. & Purcell, S.T., Ohmic electromechanical dissipation in nanomechanical cantilevers, Phys Rev B 85, 075407 (2012).
  34. J. Shen, P. Vincent, N. P. Blanchard, J. Nicolle, M. Choueib, S. T. Purcell, P. Poncharal, V. Salles, A. Brioude, Physical Properties of Individual Anatase Ti02 Nanowires Investigated by Field Emission in a Transmission Electron Microscope, JVSTB 30, 011801 (2012).
  35. T. Barois, S. Perisanu, P. Vincent, S. T. Purcell, A. Ayari, Role of fluctuations and nonlinearities on field emission nanomechanical self-oscillators, Phys Rev B 88, 195428 (2013).
  36. A. Pascale-Hamri, S. Perisanu, A. Derouet, C. Journet. P. Vincent, A. Ayari, S. T. Purcell. Ultrashort Single-Wall Carbon Nanotubes Reveal Field-Emission Coulomb Blockade and Highest Electron-Source Brightness, Physical Review Letters 112, 126805 (2014).
  37. P. A., Obraztsov, N. Kanda, K. Konishi, M. Kuwata-Gonokami, S. V. Garnov, A. N. Obraztsov, Yu. P. Svirko, “Photon-drag-induced terahertz emission from graphen”, Physical Review B 90, 241416 (2014).
  38. V. V. Vanyukov, G. M. Mikheev, T. N. Mogileva, A. P. Puzyr, V. S. Bondar, Y. P. Svirko, “Concentration dependence of the optical limiting and nonlinear light scattering in aqueous suspensions of detonation nanodiamond clusters”, Optical Materials 37, 218-222 (2014).
  39. V. V. Vanyukov, G. M. Mikheev, T. N. Mogileva, A. P. Puzyr, V. S. Bondar, Y. P. Svirko, “Polarization-sensitive nonlinear light scattering and optical limiting in aqueous suspension of detonation nanodiamonds” , Journal of the Optical Society of America B, 31, 2990-2995 (2014)
  40. Kleshch V.I., Smolnikova E.A., Orekhov A.S., Kalvas T., Tarvainen O., Kauppinen J., Nuottajarvi A., Koivisto H., Janhunen P., Obraztsov A.N.; “Nano-graphite cold cathodes for electric solar wind sail”; Carbon 81(2015)132-136
  41. Latt S., et al.; “ESTCube-1 nanosatellite for electric solar wind sail in-orbit technology demonstration”; Proceedings of the Estonian Academy of Sciences 63, 200-209 (2014)
  42. Zolotukhin A.A., Dolganov M.A., Alekseev A.M., Obraztsov A.N.; “Single-crystal diamond microneedles shaped at growth stage”; Diamond and Related Materials 42, 15-20 (2014)
  43. V.I. Kleshch, D.A. Bandurin, A.S. Orekhov, S.T. Purcell, А.N. Obraztsov, “Edge field emission of large-area single layer graphene”, Applied Surface Science 357, 1967–1974 (2015); DOI 10.1016/j.apsusc.2015.09.160
  44.  Bandurin D.A., Mingels S., Kleshch V. I., Lutzenkirchen-Hecht D., Muller G., Obraztsov A. N.; “Field emission spectroscopy evidence for dual-barrier electron tunneling in nanographite”; Appl. Phys. Lett. 106, 233112 (2015); DOI: 10.1063/1.4922550.
  45. Ismagilov R.R., Tuyakova F.T., Kleshch V.I., Obraztsova E.A., Obraztsov A.N.; “CVD nanographite films covered by ALD metal oxides:structural and field emission properties”; Phys. Status Solidi C 12, 1022; (2015) DOI 10.1002/pssc.201510022
  46. V. Baryshevsky, N. Belous, A. Gurinovich, E. Gurnevich, P. Kuzhir, S. Maksimenko, P. Molchanov, M. Shuba, V. Roddatis, T. Kaplas, Y. Svirko. “Study of nanometric thin pyrolytic carbon films for explosive electron emission cathode in high-voltage planar diode”, Thin Solid Films, 581, 107 (2015).