Correlation between metal catalyst particle size and carbon nanotube growth EF Kukovitsky, SG L'vov, NA Sainov, VA Shustov, LA Chernozatonskii Chemical Physics Letters 355 (5-6), 497-503, 2002 | 297 | 2002 |
Electron field emission from nanofilament carbon films LA Chernozatonskii, YV Gulyaev, ZJ Kosakovskaja, NI Sinitsyn, ... Chemical Physics Letters 233 (1-2), 63-68, 1995 | 285 | 1995 |
Rectification properties of carbon nanotube “Y-junctions” AN Andriotis, M Menon, D Srivastava, L Chernozatonskii Physical review letters 87 (6), 066802, 2001 | 275 | 2001 |
Diamond-like C2H nanolayer, diamane: Simulation of the structure and properties LA Chernozatonskii, PB Sorokin, AG Kvashnin, DG Kvashnin Jetp Letters 90, 134-138, 2009 | 227 | 2009 |
Phase diagram of quasi-two-dimensional carbon, from graphene to diamond AG Kvashnin, LA Chernozatonskii, BI Yakobson, PB Sorokin Nano Letters 14 (2), 676-681, 2014 | 210 | 2014 |
Carbon nanotube connectors and planar jungle gyms LA Chernozatonskii Physics Letters A 172 (3), 173-176, 1992 | 185 | 1992 |
Magnetic Properties of Polymers AN Andriotis, M Menon, RM Sheetz, L Chernozatonskii Physical review letters 90 (2), 026801, 2003 | 167 | 2003 |
Transport properties of single-wall carbon nanotube Y junctions AN Andriotis, M Menon, D Srivastava, L Chernozatonskii Physical Review B 65 (16), 165416, 2002 | 140 | 2002 |
Ballistic switching and rectification in single wall carbon nanotube Y junctions AN Andriotis, M Menon, D Srivastava, L Chernozatonskii Applied Physics Letters 79 (2), 266-268, 2001 | 132 | 2001 |
Carbon nanotubes of polyethylene EF Kukovitskii, LA Chernozatonskii, SG L'vov, NN Mel'Nik Chemical physics letters 266 (3-4), 323-328, 1997 | 121 | 1997 |
The superhard crystalline three-dimensional polymerized C60 phase LA Chernozatonskii, NR Serebryanaya, BN Mavrin Chemical Physics Letters 316 (3-4), 199-204, 2000 | 119 | 2000 |
Influence of size effect on the electronic and elastic properties of diamond films with nanometer thickness LA Chernozatonskii, PB Sorokin, AA Kuzubov, BP Sorokin, AG Kvashnin, ... The Journal of Physical Chemistry C 115 (1), 132-136, 2011 | 118 | 2011 |
A nanofiber carbon structure ZI Kosakovskaia, LA Chernozatonskii, EA Fedorov Pisma v Zhurnal Eksperimentalnoi i Teoreticheskoi Fiziki 56 (1-2), 26-30, 1992 | 116 | 1992 |
Nanomechanics of silicon nanowires M Menon, D Srivastava, I Ponomareva, LA Chernozatonskii Physical Review B 70 (12), 125313, 2004 | 108 | 2004 |
Two-dimensional semiconducting nanostructures based on single graphene sheets with lines of adsorbed hydrogen atoms LA Chernozatonskii, PB Sorokin, JW Brüning Applied Physics Letters 91 (18), 2007 | 98 | 2007 |
Thermal conductivity of carbon nanotube peapods E González Noya, D Srivastava, LA Chernozatonskii, M Menon Physical Review B—Condensed Matter and Materials Physics 70 (11), 115416, 2004 | 98 | 2004 |
Carbon nanotube “T junctions”: Formation pathways and conductivity M Menon, AN Andriotis, D Srivastava, I Ponomareva, LA Chernozatonskii Physical review letters 91 (14), 145501, 2003 | 83 | 2003 |
Thin films consisting of carbon nanotubes as a new material for emission electronics NI Sinitsyn, YV Gulyaev, GV Torgashov, LA Chernozatonskii, ... Applied surface science 111, 145-150, 1997 | 77 | 1997 |
Novel graphene-based nanostructures: physicochemical properties and applications LA Chernozatonskii, PB Sorokin, AA Artukh Russian Chemical Reviews 83 (3), 251, 2014 | 75 | 2014 |
Quasi-two-dimensional transition metal dichalcogenides: structure, synthesis, properties, and applications LA Chernozatonskii, AA Artyukh Physics-Uspekhi 61 (1), 2, 2018 | 73 | 2018 |