PACS numbers

61.46.+w Nanoscale materials: clusters, nanoparticles, nanotubes, and nanocrystals 68.70.+w Whiskers and dendrites (growth, structure, and nonelectronic properties)
  1. D.V. Alexandrov, P.K. Galenko “Dendrite growth under forced convection: analysis methods and experimental tests57 771–786 (2014)
    05.70.Fh, 05.70.Ln, 68.70.+w (all)
  2. A.M. Glezer “Creation principles of new-generation multifunctional structural materials55 522–529 (2012)
    61.43.−j, 61.46.+w, 62.50.−p (all)
  3. 50 years of the Condensed Matter Physics Research Council of the Russian Academy of Sciences (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 9 November 2011)55 522–529 (2012)
    01.10.Fv, 61.43.−j, 61.46.+w, 62.50.−p (all)
  4. A.V. Eletskii “Mechanical properties of carbon nanostructures and related materials50 225–261 (2007)
    61.46.+w, 62.25.+g, 81.07.−b, 85.85.+j (all)
  5. L.P. Mezhov-Deglin “Impurity nanocluster structures in liquid helium48 1061–1070 (2005)
    61.46.+w, 67.40.Yv, 76.30.−v (all)
  6. A.V. Eletskii “Sorption properties of carbon nanostructures47 1119–1154 (2004)
    61.46.+w, 68.43.−h, 81.07.De (all)
  7. B.M. Smirnov “Generation of cluster beams46 589–628 (2003)
    36.40.Sx, 36.40.Wa, 52.50.Jm, 61.46.+w (all)
  8. V.A. Davydov “A magnetically ordered state of carbon based on polymerized fullerene C6045 1175–1178 (2002)
    61.46.+w, 75.50.Dd (all)
  9. A.K. Zvezdin, V.V. Kostyuchenko et alMagnetic molecular nanoclusters in strong magnetic fields45 1183–1185 (2002)
    61.46.+w, 75.50.Xx (all)
  10. A.A. Mukhin, A.S. Prokhorov et alSubmillimeter spectroscopy of electron transitions and the macroscopic quantum tunneling of magnetization in molecular nanoclusters45 1186–1191 (2002)
    61.46.+w, 75.50.Xx (all)
  11. R.V. Galiulin “Crystallographic picture of the world45 221–225 (2002)
    05.45.Df, 61.46.+w, 61.50.Ah (all)
  12. G.V. Kozlov, V.U. Novikov “A cluster model for the polymer amorphous state44 681–724 (2001)
    61.41.+e, 61.43.−j, 61.43.Bn, 61.43.Hv, 61.46.+w (all)
  13. V.P. Krainov, M.B. Smirnov “The evolution of large clusters under the action of ultrashort superintense laser pulses43 901–920 (2000)
    36.40.−c, 52.40.Nk, 61.46.+w, 85.42.+m (all)
  14. B.M. Smirnov “Cluster plasma43 453–491 (2000)
    36.40.Vz, 36.40.Wa, 61.46.+w, 85.42.+m (all)
  15. A.V. Eletskii “Endohedral structures43 111–137 (2000)
    36.40.+d, 61.46.+w, 61.48.+c, 85.42.+m (all)
  16. V.N. Bezmel’nitsyn, A.V. Eletskii, M.V. Okun’ “Fullerenes in solutions41 1091–1114 (1998)
    36.40.−c, 61.46.+w, 61.48.+c (all)
  17. A.I. Gusev “Effects of the nanocrystalline state in solids41 49–76 (1998)
    61.46.+w, 85.42.+m
  18. B.M. Smirnov “Processes in plasma and gases involving clusters40 1117–1147 (1997)
    36.40.Vz, 36.40.Wa, 61.46.+w, 85.42.+m (all)
  19. A.V. Eletskii “Carbon nanotubes40 899–924 (1997)
    61.46.+w, 85.42.+m
  20. V.V. Brazhkin, A.G. Lyapin et alNew crystalline and amorphous carbon modifications produced from fullerite at high pressure40 969–971 (1997)
    61.46.+w
  21. Yu.E. Lozovik, A.M. Popov “Formation and growth of carbon nanostructures: fullerenes, nanoparticles, nanotubes and cones40 717–737 (1997)
    61.46.+w, 68.70.+w, 85.42.+m (all)
  22. R.Z. Bakhtizin, T. Hashizume et alScanning tunneling microscopy of fullerenes on metal and semiconductor surfaces40 275–290 (1997)
    68.35.Bs, 61.16.Ch, 61.46.+w, 68.65.+g (all)
  23. V.V. Brazhkin, A.G. Lyapin “Transformations of C60 fullerite under high-pressure high-temperature conditions39 837–840 (1996)
    36.40.Ei, 61.46.+w (all)
  24. A.V. Eletskii, B.M. Smirnov “Fullerenes and carbon structures38 935–964 (1995)
    36.40.−c, 61.46.+w, 61.66.Bi, 74.70.Wz (all)
  25. B.M. Smirnov “Melting of clusters with pair interaction of atoms37 1079–1096 (1994)
    36.40.+d, 61.46.+w, 64.70.Dv (all)
  26. E.M. Nadgornyĭ “The properties of whiskers5 462–477 (1962)
    68.70.+w, 81.40.Jj, 81.40.Lm, 61.72.Hh, 75.60.Ch, 79.70.+q (all)
  27. E.M. Nadgornyi, Yu.A. Osip’yan et alFilamentary crystals with almost the theoretical strength of perfect crystals2 282–304 (1959)
    68.70.+w, 81.10.Bk, 62.20.Fe, 62.20.Mk, 62.20.Hg, 61.50.Ah (all)
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