Handbook of infrared spectroscopy of ultrathin films VP Tolstoy, I Chernyshova, VA Skryshevsky John Wiley & Sons, 2003 | 763 | 2003 |
Influence of Cu-, Fe-, Co-, and Mn-oxide nanoclusters on sensing behavior of SnO2 films G Korotcenkov, V Macsanov, V Brinzari, V Tolstoy, J Schwank, A Cornet, ... Thin Solid Films 467 (1-2), 209-214, 2004 | 100 | 2004 |
Structural and gas response characterization of nano-size SnO2 films deposited by SILD method G Korotcenkov, V Macsanov, V Tolstoy, V Brinzari, J Schwank, G Faglia Sensors and Actuators B: Chemical 96 (3), 602-609, 2003 | 99 | 2003 |
Successive ionic layer deposition. The use in nanotechnology VP Tolstoy Russian chemical reviews 75 (2), 161, 2006 | 90 | 2006 |
Micro‐bio‐chemo‐mechanical‐systems: Micromotors, microfluidics, and nanozymes for biomedical applications J Mujtaba, J Liu, KK Dey, T Li, R Chakraborty, K Xu, D Makarov, ... Advanced Materials 33 (22), 2007465, 2021 | 76 | 2021 |
Hydrogen production from nano-porous Si powder formed by stain etching S Litvinenko, S Alekseev, V Lysenko, A Venturello, F Geobaldo, L Gulina, ... international journal of hydrogen energy 35 (13), 6773-6778, 2010 | 69 | 2010 |
Gas sensor application of Ag nanoclusters synthesized by SILD method G Korotcenkov, BK Cho, LB Gulina, VP Tolstoy Sensors and Actuators B: Chemical 166, 402-410, 2012 | 67 | 2012 |
Successive ionic layer deposition (SILD) as a new sensor technology: synthesis and modification of metal oxides G Korotcenkov, V Tolstoy, J Schwank Measurement Science and Technology 17 (7), 1861, 2006 | 55 | 2006 |
The peroxide route of the successive ionic layer deposition procedure for synthesizing nanolayers of metal oxides, hydroxides and peroxides VP Tolstoy Thin Solid Films 307 (1-2), 10-13, 1997 | 50 | 1997 |
Synthesis of thin-layer structures by the ionic layer deposition method VP Tolstoi Russian Chemical Reviews 62 (3), 237, 1993 | 49 | 1993 |
Ozone sensors based on SnO2 films modified by SnO2–Au nanocomposites synthesized by the SILD method G Korotcenkov, BK Cho, L Gulina, V Tolstoy Sensors and Actuators B: Chemical 138 (2), 512-517, 2009 | 46 | 2009 |
Synthesis of phase-pure superparamagnetic nanoparticles of ZnFe2O4 via thermal decomposition of zinc-iron layered double hydroxysulphate VI Popkov, VP Tolstoy, VG Semenov Journal of Alloys and Compounds 813, 152179, 2020 | 45 | 2020 |
The synthesis of Bi–V–O-containing nanolayers on silica surfaces by the successive ionic layer deposition technique VP Tolstoy, EV Tolstobrov Solid State Ionics 151 (1-4), 165-169, 2002 | 45 | 2002 |
Synthesis of 2D Zn–Co LDH nanosheets by a successive ionic layer deposition method as a material for electrodes of high-performance alkaline battery–supercapacitor hybrid devices AA Lobinsky, VP Tolstoy RSC advances 8 (52), 29607-29612, 2018 | 44 | 2018 |
Synthesis of birnessite structure layers at the solution–air interface and the formation of microtubules from them VP Tolstoy, LB Gulina Langmuir 30 (28), 8366-8372, 2014 | 44 | 2014 |
SnO2 thin films modified by the SnO2–Au nanocomposites: Response to reducing gases G Korotcenkov, BK Cho, L Gulina, V Tolstoy Sensors and Actuators B: Chemical 141 (2), 610-616, 2009 | 43 | 2009 |
The synthesis of Mn (IV) oxide nanolayers by the successive ionic layer deposition method VP Tolstoy, IV Murin, A Reller Applied surface science 112, 255-257, 1997 | 37 | 1997 |
SnO2–Au nanocomposite synthesized by successive ionic layer deposition method: Characterization and application in gas sensors G Korotcenkov, LB Gulina, BK Cho, SH Han, VP Tolstoy Materials Chemistry and Physics 128 (3), 433-441, 2011 | 36 | 2011 |
C—The synthesis of CeO2+ n· n H2O nanolayers on silicon and fused-quartz surfaces by the successive ionic layer deposition technique VP Tolstoy, AG Ehrlich Thin Solid Films 307 (1-2), 60-64, 1997 | 35 | 1997 |
Novel electrochemical sensors with electrodes based on multilayers fabricated by layer-by-layer synthesis and their analytical potential SS Ermakov, KG Nikolaev, VP Tolstoy Russian Chemical Reviews 85 (8), 880, 2016 | 34 | 2016 |