# | Title | Journal | Year | Citations |
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1 | PRIRODA-04: a quantum-chemical program suite. New possibilities in the study of molecular systems with the application of parallel computing | Russian Chemical Bulletin | 2005 | 878 |
2 | Medicinal chemistry of tetrazoles | Russian Chemical Bulletin | 2012 | 228 |
3 | Catalytic reduction of molecular nitrogen in solutions | Russian Chemical Bulletin | 2003 | 212 |
4 | Oxidation of thiol compounds by molecular oxygen in aqueous solutions | Russian Chemical Bulletin | 2003 | 150 |
5 | A SEM study of nanosized metal films and metal nanoparticles obtained by magnetron sputtering | Russian Chemical Bulletin | 2011 | 143 |
6 | Polymeric cryogels as a new family of macroporous and supermacroporous materials for biotechnological purposes | Russian Chemical Bulletin | 2008 | 128 |
7 | Cycloaddition to buckminsterfullerene C60: advancements and future prospects | Russian Chemical Bulletin | 2002 | 109 |
8 | Derivatives of the closo-dodecaborate anion and their application in medicine | Russian Chemical Bulletin | 2002 | 94 |
9 | Structure determination from powder diffraction | Russian Chemical Bulletin | 2001 | 85 |
10 | Thienopyridines: synthesis, properties, and biological activity | Russian Chemical Bulletin | 2005 | 85 |
11 | Photodynamic therapy of cancer: Second and third generations of photosensitizers | Russian Chemical Bulletin | 1998 | 84 |
12 | Boron and gadolinium neutron capture therapy | Russian Chemical Bulletin | 2004 | 84 |
13 | Spin transitions in non-classical systems | Russian Chemical Bulletin | 2004 | 84 |
14 | Bistable organic, organometallic, and coordination compounds for molecular electronics and spintronics | Russian Chemical Bulletin | 2008 | 82 |
15 | Biologically active azolo-1,2,4-triazines and azolopyrimidines | Russian Chemical Bulletin | 2018 | 79 |
16 | (null) | Russian Chemical Bulletin | 2003 | 75 |
17 | Prediction of human intestinal absorption of drug compounds | Russian Chemical Bulletin | 2016 | 74 |
18 | Azolo[5,1-c]-1,2,4-triazines as a new class of antiviral compounds | Russian Chemical Bulletin | 2008 | 71 |
19 | Dopants in nanocrystalline tin dioxide | Russian Chemical Bulletin | 2003 | 68 |
20 | Spintronics and spintronics materials | Russian Chemical Bulletin | 2004 | 67 |
21 | Some aspects of the chemical behavior of icosahedral carboranes | Russian Chemical Bulletin | 2008 | 66 |
22 | Fundamentals, achievements, and perspectives for development of solid-flame combustion | Russian Chemical Bulletin | 1997 | 65 |
23 | Electrophilic and nucleophilic aromatic substitution: Analogous and complementary processes | Russian Chemical Bulletin | 1996 | 64 |
24 | Oxidation with the “H2O2-managanese(IV) complex-carboxylic acid” reagent | Russian Chemical Bulletin | 1998 | 64 |
25 | Dubinin"s theory and its contribution to adsorption science | Russian Chemical Bulletin | 2001 | 64 |
26 | Ferrocenes as potential anticancer drugs. Facts and hypotheses | Russian Chemical Bulletin | 2014 | 64 |
27 | Nitropyrazoles | Russian Chemical Bulletin | 2010 | 62 |
28 | Antitumor activities of ferrocene compounds | Russian Chemical Bulletin | 2010 | 62 |
29 | NMR study of products of thermal transformation of substituted N-aryl-o-quinoneimines | Russian Chemical Bulletin | 2003 | 61 |
30 | Protonation of magnesium and sodium complexes containing dianionic diimine ligands. Molecular structures of 1,2-bis{(2,6-diisopropylphenyl)imino}acenaphthene (dpp-BIAN), [(dph-BIAN)H2(Et2O)], and [(dpp-BIAN)HNa(Et2O)] | Russian Chemical Bulletin | 2004 | 60 |
31 | Computational platform Way2Drug: from the prediction of biological activity to drug repurposing | Russian Chemical Bulletin | 2017 | 60 |
32 | Nitropyrazoles | Russian Chemical Bulletin | 1993 | 59 |
33 | Dynamic stereochemistry of hypervalent silicon, germanium and tin compounds containing amidomethyl C, O-chelating ligands | Russian Chemical Bulletin | 1997 | 58 |
34 | Catalytic hydrodehalogenation of organic compounds | Russian Chemical Bulletin | 1996 | 56 |
35 | Computer-aided prediction of biological activity spectra for organic compounds: the possibilities and limitations | Russian Chemical Bulletin | 2019 | 56 |
36 | Structures of large transition metal clusters | Russian Chemical Bulletin | 2003 | 55 |
37 | Formation of nanoassociates as a key to understanding of physicochemical and biological properties of highly dilute aqueous solutions | Russian Chemical Bulletin | 2014 | 55 |
38 | (null) | Russian Chemical Bulletin | 2001 | 53 |
39 | Adsorption of surfactants on superfine magnetite | Russian Chemical Bulletin | 2002 | 53 |
40 | Hydrogenation of CO2 to formic acid in the presence of the Wilkinson complex | Russian Chemical Bulletin | 2002 | 53 |
41 | Catalytic oxidation of olefins and alcohols with hydrogen peroxide in a two-phase system giving mono- and dicarboxylic acids | Russian Chemical Bulletin | 2005 | 53 |
42 | Zinc(II) complexes with Schiff bases derived from ethylenediamine and salicylaldehyde: the synthesis and photoluminescent properties | Russian Chemical Bulletin | 2008 | 53 |
43 | Synthesis of vicinal bishydroxylamine | Russian Chemical Bulletin | 1999 | 52 |
44 | Synthesis of lupane triterpenoids with triphenylphosphonium substituents and studies of their antitumor activity | Russian Chemical Bulletin | 2013 | 52 |
45 | Perfluorinated polymercuramacrocycles as anticrowns. Applications in catalysis | Russian Chemical Bulletin | 2003 | 51 |
46 | The nature and energy characteristics of intramolecular hydrogen bonds in crystals | Russian Chemical Bulletin | 2006 | 51 |
47 | Chemical modification of nanocrystalline metal oxides: effect of the real structure and surface chemistry on the sensor properties | Russian Chemical Bulletin | 2008 | 51 |
48 | Antioxidant properties of gold nanoparticles studied by ESR spectroscopy | Russian Chemical Bulletin | 2008 | 50 |
49 | Synthesis and crystal structures of PrIII and NdIII complexes with the macrocyclic cavitand cucurbit[6]uril | Russian Chemical Bulletin | 2006 | 49 |
50 | Preparation, structure, and main properties of bimolecular crystals CL-20—DNP and CL-20—DNG | Russian Chemical Bulletin | 2015 | 49 |