PACS numbers

68.65.Pq Graphene films 81.05.ue Graphene 81.15.Gh Chemical vapor deposition 81.16.Be Chemical synthesis methods
  1. E.F. Sheka, N.A. Popova, V.A. Popova “Physics and chemistry of graphene. Emergentness, magnetism, mechanophysics and mechanochemistry61 (7) (2018)
    62.25.−g, 68.65.Pq, 73.22.Pr (all)
  2. V.T. Dolgopolov “Quantum melting of a two-dimensional Wigner crystal60 731–742 (2017)
    68.65.Pq, 71.10.Hf, 73.20.Qt (all)
  3. D.V. Kazantsev, E.V. Kuznetsov et alApertureless near-field optical microscopy60 259–275 (2017)
    07.60.−j, 07.79.Fc, 61.46.−w, 68.37.Ps, 68.65.Pq, 85.30.De, 87.64.−t (all)
  4. I.V. Antonova “2D printing technologies using graphene based materials60 204–218 (2017)
    68.65.Pq, 73.61.−r, 79.60.Jv (all)
  5. M.Yu. Kagan, V.A. Mitskan, M.M. Korovushkin “Anomalous superconductivity and superfluidity in repulsive fermion systems58 733–761 (2015)
    67.85.−d, 74.20.−z, 74.20.Mn, 74.20.Rp, 74.25.Dw, 74.78.Fk, 81.05.ue (all)
  6. A.E. Galashev, O.R. Rakhmanova “Mechanical and thermal stability of graphene and graphene-based materials57 970–989 (2014)
    61.48.−c, 65.80.Ck, 68.65.Pq, 72.80.Vp (all)
  7. I.V. Antonova “Chemical vapor deposition growth of graphene on copper substrates: current trends56 1013–1020 (2013)
    68.65.Pq, 81.05.ue, 81.15.Gh, 81.16.Be (all)
  8. G.N. Makarov “Laser applications in nanotechnology: nanofabrication using laser ablation and laser nanolithography56 643–682 (2013)
    36.40.−c, 42.62.Fi, 61.46.−w, 81.05.ue, 81.07.−b, 81.16.−c, 81.16.Nd (all)
  9. P.B. Sorokin, L.A. Chernozatonskii “Graphene-based semiconductor nanostructures56 105–122 (2013)
    73.22.−f, 73.22.Pr, 73.61.Ey, 81.05.ue (all)
  10. Physical properties of graphene (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 28 March 2012)55 1140–1151 (2012)
    01.10.Fv, 65.80.Ck, 68.65.Pq, 72.15.Jf, 72.20.Pa, 72.80.Vp, 78.67.Wj, 81.05.ue (all)
  11. L.A. Falkovsky “Magnetooptics of graphene layers55 1140–1145 (2012)
    68.65.Pq, 78.67.Wj, 81.05.ue (all)
  12. A.A. Varlamov, A.V. Kavokin et alAnomalous thermoelectric and thermomagnetic properties of graphene55 1146–1151 (2012)
    65.80.Ck, 72.15.Jf, 72.20.Pa, 72.80.Vp, 81.05.ue (all)
  13. Modern problems in physical sciences (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 26 October 2011)55 408–425 (2012)
    01.10.Fv, 42.25.−p, 42.30.−d, 42.60.Jf, 72.80.Vp, 73.20.−r, 75.30.−m, 75.50.−y, 81.05.Bx, 81.05.ue (all)
  14. S.V. Morozov “New effects in graphene with high carrier mobility55 408–412 (2012)
    72.80.Vp, 73.20.−r, 81.05.ue (all)
  15. K.S. Novoselov “Graphene: materials in the Flatland54 (12) (2011)
    01.10.Fv, 68.65.Pq, 72.80.Vp (all)
  16. A.K. Geim “Random walk to graphene54 (12) (2011)
    01.10.Fv, 68.65.Pq, 72.80.Vp (all)
  17. A.I. Vorob’eva “Equipment and techniques for carbon nanotube research53 257–277 (2010)
    61.48.De, 73.63.−b, 81.05.ue (all)
  18. O.P. Zaskal’ko “Picosecond electronics and optoelectronics30 350–350 (1987)
    01.30.Vv, 01.30.Ee, 85.60.−q, 85.30.−z, 81.15.Gh, 81.15.Hi (all)
  19. P.V. Ratnikov, A.P. Silin “Two-dimensional graphene electronics: current state and prospects”, accepted
    68.65.Pq, 68.65.Cd, 73.21.Fg, 73.40.Gk, 73.50.−h, 85.30.Tv, 85.40.−e, 85.60.−q, 85.65.+h (all)
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