Публикации-2022
В 2022 году сотрудниками кафедры было опубликовано 153 статьи в международных журналах, индексируеумых WoS/Scopus.
1 Yagofarov, M. I. Interpolation of the Temperature Dependence of the Fusion Enthalpy of Aromatic Compounds Between 298.15 K and the Melting Temperature // International Journal of Thermophysics. ‒ 2022. ‒ V. 43, № 6. ‒ P. 1-22.
2 Sokolov, A. A. Estimation of the temperature dependence of the vaporization enthalpies of monofunctional aliphatic compounds // Fluid Phase Equilibria. ‒ 2022. ‒ V. 553. ‒ A113304.
3 Bolmatenkov, D. N. Calculation of the vaporization enthalpies of alkylaromatic hydrocarbons as a function of temperature from their molecular structure // Fluid Phase Equilibria. ‒ 2022. ‒ V. 554. ‒ A113303.
4 Bolmatenkov, D. N. Vaporization enthalpies of benzanthrone, 1-nitropyrene, and 4-methoxy-1-naphthonitrile: Prediction and experiment // The Journal of Chemical Thermodynamics. ‒ 2022. ‒ V. 168. ‒ A106744.
5 Bolmatenkov, D. N. Liquid-gas equilibria in organic liquid crystals: M-24 (4-octyloxy-4′-cyanobiphenyl), BCH-52 (4-ethyl-4′-(trans-4-pentylcyclohexyl) biphenyl) and HP-53 (4′-propyl phenyl-4-(trans-4′-pentylcyclohexyl) benzoate) // Fluid Phase Equilibria. - 2023. – V. 565 - A113669. - https://doi.org/10.1016/j.fluid.2022.113669
6 Notfullin, A. A. Vaporization thermodynamics of normal alkyl benzoates // Journal of Thermal Analysis and Calorimetry. - 2022. - https://doi.org/10.1007/s10973-022-11643-7
7 Solomonov, B. N. Compensation relationship in Thermodynamics of solvation and vaporization: features and applications. I. Non-hydrogen-bonded systems // Journal of Molecular Liquids. - 2022. – V. 368. - A120762. - https://doi.org/10.1016/j.molliq.2022.120762
8 Yagofarov, M. I. Estimation of sublimation enthalpies of aromatic compounds as a function of temperature // The Journal of Chemical Thermodynamics. - 2022. - V. 174. - A106861. - https://doi.org/10.1016/j.jct.2022.106861
9 Yagofarov, M. I. Thermodynamic Properties of Thioxanthone between 80 and 540 K // Journal of Chemical & Engineering Data. - 2022.- https://doi.org/10.1021/acs.jced.2c00446
10 Yagofarov, M. I. Thermochemistry of fusion of benzocaine and S-naproxen between 298.15 K and Tm studied by solution and fast scanning calorimetry // Journal of Thermal Analysis and Calorimetry. - 2022. - https://doi.org/10.1007/s10973-022-11676-y
11 Gatiatulin, A.K. Determination of Melting Parameters of Cyclodextrins Using Fast Scanning Calorimetry // Int. J. Mol. Sci. — 2022. — V.23. — P.13120.
12 Gatiatulin, A.K. Preparation of γ-Cyclodextrin Inclusion Compounds Using Solid-Phase Guest Exchange Method // Russ. J. Gen. Chem. — 2022. — V.92. —P.1257–1261.
13 Gabdulkhaev, M.N. Solid-State Decarboxylation of Cyclophane Tetra(malonatemethylene) Derivative // Russ. J. Gen. Chem. — 2022. — V.92. — P.1250–1256.
14 Larionov, R.A. Kinetics of the Solid-Phase Cyclization of Glycylglycine Dipeptide // Russian Journal of Organic Chemistry. — 2022. — V.58(8). — P. 1076–1083.
15 Morozova, A.S. Self-Organization of Di- and Triglycine Oligopeptides in Thin Films on the Hydrophilic and Hydrophobic Silicon Surface under Exposure to Organic Compounds Vapors // Russian Journal of General Chemistry. — 2022. — V. 92(7). —P. 1271–1279.
16 Ламберов, А.А. Промышленная реализация разработок. Из опыта сотрудничества с ПАО «Нижнекамскнефтехим» // Катализ в промышленности. – 2022. – Т. 22, №2. – С. 76-86.
17 Набиуллин, И.Р. Изменение физико-химических и каталитических свойств железокалиевых катализаторов в результате эксплуатации в реакторе дегидрирования этилбензола в стирол ПАО «Нижнекамскнефтехим» // Катализ в промышленности. – 2022. – Т. 22, №2. – С. 65-75.
18 Набиуллин, И.Р. Производство мономеров в ПАО «Нижнекамскнефтехим» на основе процессов каталитического дегидрирования // Катализ в промышленности. – 2022. – Т. 22, №3
19 Djimasbe, R. Oil dispersed nickel-based catalyst for catalytic upgrading of heavy oil using supercritical water//Fuel. – 2022. – V. 313. – A122702
20 Егорова, С.Р. Опыт разработки и внедрения алюмохромовых катализаторов серии КДИ для дегидрирования изобутана в кипящем слое // Катализ в промышленности. – 2022. – Т.22, № 5. – С. 61-69
21 Kirgizov A. Y. Ex Situ Upgrading of Extra Heavy Oil: The Effect of Pore Shape of Co-Mo// Catalysts.- 2022.- V. 12.-№10- P. 1271.
22 Isupova, L.A. Aluminium Oxide Catalysts and Supports Synthesized by Thermal Activation Technology // Catalysis in Industry. - 2022. - V.14.- №2. - P.145
23 Vedernikov O.S. Experience in the Development and Production of an Industrial Mixed-Diesel Hydrotreating Catalyst // Chemistry and Technology of Fuels and Oils. - 2022. - V.57.- №6. - P.88
24 Набиуллин, И.Р. Рекуперация церия из дезактивированных железокалиевых катализаторов дегидрирования алкилароматических углеводородов // Вестник Технологического университета. – 2022. – №5. – С. 21-30
25 Djimasbe, R. Direct Hydrogen Production from Extra-Heavy Crude Oil under Supercritical Water Conditions Using a Catalytic (Ni-Co// Catalysts. – 2022. – V. 12. – №. 10. – A1183. -https://doi.org/10.3390/catal12101183
26 Ifticene, M. A. Behavior and kinetics of the conversion// Fuel. – 2022. – V. 324. – A124597. -https://doi.org/10.1016/j.fuel.2022.124597
27 Yuan,C. Catalytic Oxidation of Alkanes by Organometallics in an In Situ Combustion Process // Energy & Fuels. – 2022. – V. 36. – №. 17. – P. 10167-10176. -https://doi.org/10.1021/acs.energyfuels.2c02121
28 Gong,Y. Carriers for Methane Hydrate Production: Cellulose-Based Materials as a Case Study // //doi.org/10.1021/acssuschemeng.2c00791
29 Galeev, R.I. Novel low-field NMR method for characterization content and SARA composition of bitumen in rocks // Journal of Petroleum Science and Engineering. – 2022. – V. 214. – A110486. - https://doi.org/ j.petrol.2022.110486
30 Mehrabi-Kalajahi, S. Entropy-stabilized metal oxide nanoparticles supported on reduced graphene oxide as a highly active heterogeneous catalyst for selective and solvent-free oxidation of toluene: a combined experimental and numerical investigation // Journal of Materials Chemistry A. – 2022. – V. 10. – №. 27. – P. 14488-14500. - https://doi.org/10.1039/d2ta02027k
31 Mikhailova, A.N. Thermogravimetric parameters of the oxidation of organic matter and asphaltenes from the rocks of the Permian deposits of heavy oil field before and after catalytic hydrothermal treatment // Fuel. – 2022. – V. 313. – A122641. - https://doi.org/10.1016/j.fuel.2021.122641
32 Huo, J. Evolution of mass losses and evolved gases of crude oil and its SARA components during low-temperature oxidation by isothermal TG–FTIR analyses // Journal of Thermal Analysis and Calorimetry. – 2022. – V. 147. – №. 6. – P. 4099-4112. - https://doi.org/10.1007/s10973-021-10841-z
33 Yuan,C. Catalytic combustion of heavy oil using γ-Fe2O3 nanocatalyst in in-situ combustion process // Journal of Petroleum Science and Engineering. – 2022. – V. 209. – A109819. -https://doi.org/10.1016/j.petrol.2021.109819
34 Ifticene, M.A. Experimental study on the in-situ combustion retorting of domanik oil shale // Petroleum Science and Technology. – 2022. – P. 1-18. - https://doi.org/10.1080/10916466.2022.2143818
35 Zinnatullin, A.L. Fundamental insight into pyrolysis and oxidation process of ferric(III) stearate // Journal of Analytical and Applied Pyrolysis. – 2022. – V. 161. – A105367. - https://doi.org/ 10.1016/j.jaap.2021.105367
36 Zairov, R.R. Role of PSS-based assemblies in stabilization of Eu and Sm luminescent complexes and their thermoresponsive luminescence // Colloids and Surfaces B: Biointerfaces. - 2022. - V.217. - P.112664.
37 Khan, N.A. An Efficient Fe2O3// International Journal of Hydrogen Energy. - 2022. - V. 47, N 53. - P. 22340-22347.
38 Reddy, C.V. g-C3N4 nanosheets functionalized yttrium-doped ZrO2 nanoparticles for efficient photocatalytic Cr(VI) reduction and energy storage applications // Journal of Environmental Management. - 2022. - V.315. - P.115120.
39 Zairov, R.R. Rational design of efficient nanosensor for glyphosate and temperature out of terbium complexes with 1,3-diketone calix[4]arenes // Sensors & Actuators: B. Chemical. - 2022. - V. 350. - P.130845.
40 Bochkova, O. Silica-Supported Assemblage of CuII Ions with Carbon Dots for Self-Boosting and Glutathione-Induced ROS Generation // Coatings. -2022. -V.12. - P.97.
41 Gavrilova, T. Li3V2(PO4)3// Magnetochemistry. - 2022. V.8. - P.105.
42 Enrichi, F. Effect of the crystal structure on the optical properties and Ag sensitization of Tb3+// Ceramics International. - 2022.
43 Podyachev, S.N. Modulating the inclusive and coordinating ability of thiacalix[4]arene and its antenna effect on Yb3+-luminescence via upper-rim substitution // Molecules. - 2022. - V. 27. P.6793.
44 Al-Mishaal, O. F. Octahedral Cluster Complex of Molybdenum as Oil-Soluble Catalyst for Improving In Situ Upgrading of Heavy Crude Oil: Synthesis and Application // Catalysts. – 2022. – V. 12, №. 10. – P. 1125
45 Shekurov, R.P. Comparison of crystal structure and DFT calculation of triferrocenyl trithiophosphite’s conformation // Beilstein Archives. - 2022. - V. 18. - P.1499-1504.
46 Reddy, Ch.V. Hydrothermally derived Cr-doped SnO2 nanoflakes for enhanced photocatalytic and photoelectrochemical water oxidation performance under visible light irradiation // Environmental Research. - 2023. -V.217. - A 114672.
47 Rodionov, N.O. New insights of the initial processes of pyrene oxidation in the presence of Cu-based catalysts: Quantum-mechanical calculation and experimental evidence // Applied Catalysis A: General. – 2022. – V. 643. – A 118775.
48 Wang, R. Cobalt-doped V2O5 hexagonal nanosheets for superior photocatalytic toxic pollutants degradation, Cr (VI) reduction, and photoelectrochemical water oxidation performance // Environmental Research. - 2022. - A 144923.
49 Nizameev, I.R. Complexes of Sodium Pectate with Nickel for Hydrogen Oxidation and Oxygen Reduction in Proton-Exchange Membrane Fuel Cells // International journal of molecular sciences. - 2022. -V.23, № 22. - A14247.
50 Shekurov, R.P. Ferrocene-Based P-Chiral Amidophosphinate: Stereoselective Synthesis and X-ray Structural Study // Dalton transactionы. - 2022.
51 Morozov, O.A. Pr3+:LiGdF4 microparticles for optical temperature sensing // Solid State Communications. - 2022. V. 351.- P.1-8.
52 Tendiuk, N. Structure-Functional Characteristics of the Svx Protein—The Virulence Factor of the Phytopathogenic Bacterium Pectobacterium atrosepticum // International Journal of Molecular Sciences. – 2022 – V. 23, №. 13 - A6914.
53 " Fatkhutdinova, A. Refolding of Lysozyme in Glycerol as Studied by Fast Scanning Calorimetry // International Journal of Molecular Sciences. – 2022 – V. 23, №. 5 – A2773."
54 "Jariyavidyanont, K. Bulk Enthalpy of Melting of Poly (l‐lactic acid)(PLLA) Determined by Fast
Scanning Chip Calorimetry // Macromolecular Rapid Communications. – 2022 – A2200148."
55 "Zhang, R. Nucleation and crystallization kinetics of polyamide 12 investigated by fast scanning
calorimetry // Journal
of Polymer Science. – 2022 – V. 60, №. 5 – P. 842-855."
56 "Kusova, A. Structure of amyloidogenic PAP (85-120) peptide by high-resolution NMR
spectroscopy //Journal of Molecular Structure. – 2022 – V. 1253 – A132294."
57 "Mukhametzyanov, T. A. Step-scan differential calorimetry of protein denaturation: Modeling and
experiment //Thermochimica Acta. –
2022 – V. 710 – A179181."
58 "Schick, C. Fast scanning calorimetry //Thermal Analysis of Polymeric
Materials: Methods and Developments. – 2022 – V. 1 – P. 75-168."
59 Chua, Y. Z. The melting properties of D-α-glucose, D-β-fructose, D-sucrose, D-α-galactose, and D-α-xylose and their solubility in water: A revision //Food Biophysics. – 2022 – V. 17 – №. 2 – P. 181-197
60 "Kipnusu, W. K. Homogeneous nucleation in polyamide 66, a two-stage process as revealed by
combined nanocalorimetry and IR spectroscopy //Colloid and Polymer Science. – 2022 – P. 1-9."
61 "Zhang, R. Cyclic Olefin Copolymers (COC)—Excellent Glass Formers with Low Dynamic Fragility // Macromolecular
Chemistry and Physics. – 2022 – A2200065."
62 "Zhang, R. Zero-Entropy-Production Melting Temperature of Crystals of Poly (butylene
succinate) Formed at High Supercooling of the Melt //Macromolecules. – 2022 – V. 55, №. 3 – P. 965-970."
63 Sanchugova D. Conformational ensemble of amyloid-forming semenogelin 1 peptide SEM1(68–107) by NMR spectroscopy and MD simulations // Journal of Structural Biology. – 2022 – V. 214, № 4 – 107900
64 Yakimova L. Albumin// International Journal of Molecular Sciences. - 2022 - V.23 - 10040
65 Yakimova L. Micelleplexes and polyplexes with DNA from salmon sperm based on pillar[5]arenes and thiacalix[4]arene // AIP Conference Proceedings. – 2022 – 2390. 030098
66 Gus’kov V.Yu. Possibility of chiral recognition by adsorption on enantiomorphous crystals: the impact of crystal surface polarity // Physical chemistry chemical physics. – 2022 – Is. 24, 26785-26794
67 Nagrimanov, R. N. Additive scheme of solvation enthalpy for halogenated aliphatic hydrocarbons at 298.15 K // Thermochim. Acta. ‒ 2022. ‒ V. 710. ‒ A179155.
68 Brunetti, B. Sublimation Study of Six 5-Substituted-1,10-Phenanthrolines by Knudsen Effusion Mass Loss and Solution Calorimetry // Entropy. ‒ 2022. ‒ V. 24, № 2. ‒ A192.
69 Nagrimanov, R.N. Thermochemical Properties of Phase Transitions and Solvation for Some Mono- and Di-cyanate Esters at 298.15 K // J. Chem. Eng. Data. – 2022.
70 Nagrimanov, R.N. Energetics of substituent effects on the benzene ring: CH3O with F, Cl, Br, and I // J. Therm. Anal. Calorim. – 2022. - DOI: 10.1007/s10973-022-11673-1
71 Lapuk, S.E. Glass transition kinetics and physical aging of polyvinylpyrrolidones with different molecular masses // Macromolecules. – 2022. – V.55. – P.4516-4522. - https://doi.org/10.1021/acs.macromol.2c00547
72 Karaeva, J.V. Pyrolysis kinetics of new bioenergy feedstock from anaerobic digestate of agro-waste by thermogravimetric analysis // Journal of Environmental Chemical Engineering. – 2022. – V.10. – A107850.
73 Gerasimov, A.V. Stabilization of metastable polymorphic form of glycine by glucose // AIP Conference Proceedings. – 2022. - V.2390. – A030020.
74 Zubaidullina, L.S. Microspherical particles of solid dispersion of dipyridamole for inhalation administration // AIP Conference Proceedings. – 2022. – V.2390. – A030102.
75 Boldyrev, A.E. Micro-sized composite drugs based on sodium caseinate for inhalation administration // AIP Conference Proceedings. – 2022. – V.2390. – A030008.
76 Lapuk, S.E. Differential scanning calorimetry investigation of crystallization kinetics and glass-forming ability of sulfonamides // Journal of Non-Crystalline Solids. – 2023. – V.600. – A122038.
77 Болдырев, А.Е. Системы доставки дипиридамола на основе биомолекул для аэрозольтерапии // Химико-фармацевтический журнал. – 2022. –Т.56, №3. – С.53-58.
78 Vyazovkin, S. Problems with Applying the Ozawa–Avrami Crystallization Model to Non-Isothermal Crosslinking Polymerization // Polymers. – 2022. – V. 14, №. 4. – P. 693.
79 Galukhin, A. Novel adamantane-based dicyanate ester: Synthesis, polymerization kinetics, and thermal properties of resulting polymer // Thermochimica Acta. – 2022. – V. 710. – A179177.
80 Galukhin, A. The kinetics of formation of microporous polytriazine in diphenyl sulfone // Molecules. – 2022. – V. 27, №. 11. – A3605. - https://doi.org/10.3390/molecules27113605.
81 Vyazovkin, S. ICTAC Kinetics Committee recommendations for analysis of thermal polymerization kinetics // Thermochimica Acta. – 2022. – A179243.
82 Galukhin A. Mechanistic and kinetic insights into phenol-catalyzed cyclotrimerization of cyanate esters //Thermochimica Acta. – 2022. – V. 718. – P. 179382.
83 Galukhin A.Cyanate Ester Polymerization: Overview of Mechanistic and Kinetic Aspects //Macromolecular Chemistry and Physics. – 2022. – P. 2200384.
84 Khachatrian, A. A. Intermolecular interactions between imidazolium-and cholinium-based ionic liquids and lysozyme: Regularities and peculiarities // Journal of Molecular Liquids. – 2022. – V. 348. – A118426.
85 Khachatrian, A. A.The comparative analysis of solvation thermochemistry of organic non-electrolytes in ionic liquids and molecular solvents // Journal of Molecular Liquids. – 2022. – V. 368. – A120765.
86 Kuznetsova A.A. Conformational analysis of dibutylphosphorylacetic acid N,N-dibutylamide in solution [Text] // Russian Journal of General Chemistry. – 2021. – V.91, N12. – P.2581-2587.
87 Кузнецова А.А. Конформационный анализ N,N-дибутиламида дибутилфосфорилуксусной кислоты в растворе [Текст] // Журнал общей химии. – 2022. – Т.92, N1. – С.9-16.
88 Кузнецова А.А. Конформационный анализ бис[N-алкил-N-(2-дифенилфосфорилэтил)]амидов дигликолевой кислоты // Журнал общей химии. – 2022. – Т.92, N12. – С.1859-1867. – https://doi.org.10.31857/S0044460X2212006X
89 Rakipov, I.T. FTIR spectral study of intermolecular interactions of C=O groups of amides in solution // Journal of Molecular Liquids. – 2022. – V.354. - A118838.
90 Akhmadiyarov, A.A. Oxidation of heavy crude oils under reservoir conditions: Influence of catalysts and the gas phase //Journal of Petroleum Science and Engineering. – 2022. – V. 214. A110507
91 Rakipov, I.T. Thermochemistry of hydrogen bonding of ethers with aliphatic alcohols//Thermochimica Acta. – 2022. – V. 711. - A179203
92 Mikolaichuk, O. V. A cytostatic drug from the class of triazine derivatives: Its properties in aqueous solutions, cytotoxicity, and therapeutic activity // Journal of Molecular Liquids. – 2022. – V.356. – A119043.
93 Rakipov I.T. FTIR Spectroscopy of Intermolecular Interactions of Ethers with Methanol: Cooperativity Effect // J. Solution Chem. – 2022. – V.51, 1219 - 1228.
94 Sedov, I.A. Solvation properties of protic ionic liquids 2-methoxyethylammonium nitrate, propylammonium hydrogen sulfate, and butylammonium hydrogen sulfate // The Journal of Chemical Thermodynamics. – 2022. – V. 170. – P. 106779.
95 Muronetz, V.I. Polyelectrolytes for Enzyme Immobilization and the Regulation of Their Properties // Polymers. – 2022. – V. 14. – № 19. – P. 4204
96 Kusova, A.M. NMR and dynamic light scattering give different diffusion information for short-living protein oligomers. Human serum albumin in water solutions of metal ions // European Biophysics Journal. – 2022. – V. 51, № 4-5. – P. 375-383.
97 Gubaidullin, A.T. Modulation of Molecular Structure and Mechanical Properties of κ-Carrageenan-Gelatin Hydrogel with Multi-Walled Carbon Nanotubes // Polymers. – 2022. – V. 14, № 12. – P. 2346.
98 Makshakova, O.N. Interaction-Induced Structural Transformations in Polysaccharide and Protein-Polysaccharide Gels as Functional Basis for Novel Soft-Matter: A Case of Carrageenans // Gels. – 2022. – V. 8, № 5. – P. 287.
99 Zueva, O.S. Industrial block copolymer surfactants: Diversity of associative forms and interaction with carbon nanomaterial // Journal of Molecular Liquids. – 2022. – V. 359. – P. 119267
100 Sedov, I.A. Highlighting the difference in nanostructure between domain-forming and domainless protic ionic liquids // Physical Chemistry Chemical Physics. – 2022. – V. 24, № 35. – P. 21477-21494
101 Khaibrakhmanova, D. Effect of ligands with different affinity on albumin fibril formation // International Journal of Biological Macromolecules. – 2022. – V. 204. – P. 709-717
102 Leisi, E.V. Effect of bacteriophage-encoded chaperonins on amyloid transformation of α-synuclein // Biochemical and Biophysical Research Communications. – 2022. – V. 622. – P. 136-142.
103 Magsumov, T.I. Development of Predictive Expressions for Infinite Dilution Activity Coefficients, Molar Solubilities and Partition Coefficients for Solutes Dissolved in 2-Pyrrolidone Based on the Abraham Solvation Parameter Model // Journal of Solution Chemistry. – 2022. – V. 51. – № 9. – P. 975-991.
104 Sorokin, A.V. Chitosan Graft Copolymers with N-Vinylimidazole as Promising Matrices for Immobilization of Bromelain, Ficin, and Papain // Polymers. – 2022. – V. 14, № 11. – P. 2279.
105 Andreev, I.A. 4‐(Dimethylamino)Pyridinium Azide in Protic Ionic Liquid Media as a Stable Equivalent of Hydrazoic Acid // Advanced Synthesis & Catalysis. – 2022. – V. 364, № 14. – P. 2403-2415
106 Sedov, I. Molecular Mechanisms of Inhibition of Protein Amyloid Fibril Formation: Evidence and Perspectives Based on Kinetic Models // International Journal of Molecular Sciences. – 2022. – V. 23, № 21. – P. 13428.
107 Kuchkaev, A.M. PNP Ligands in Cobalt-Mediated Activation and Functionalization of White Phosphorus // Angew. Chem. Int. Ed. – 2022. – V. 61. – e202210973.
108 Bekmukhamedov, G.E. Electronic interaction between Cr3+ ions in chromia-alumina catalysts for light alkane dehydrogenation // Journal of Physics and Chemistry of Solids. – 2022. – V. 167. – A110778. - https://doi.org/10.1016/j.jpcs.2022.110778
109 Bekmukhamedov, G.E. Catalytic performance of nickel(II) complexes bearing 1,10-phenanthroline based ligands in homogeneous ethylene oligomerization // Polyhedron. – 2022. – V. 223. – A115978.
110 Agafonov, M.A. Metal-organic frameworks in russia: from the synthesis and structure to functional properties and materials // Journal of Structural Chemistry. – 2022. – V. 63, №. 5. – P. 671–843.
111 Bekmukhamedov, G. Spectroscopy analysis of active component of chromia-alumina dehydrogenation catalysts // New Journal of Chemistry. – 2022. – V. 46. – P. 4974-4978.
112 Кучкаев, А.М. Электрохимические свойства ионов никеля(II) в присутствии малослойного черного фосфора // Электрохимия. - 2022. - Т. 58. - С. 480 - 488. - https://doi.org/10.31857/S0424857022080096
113 Kagileva, A.A. Influence of N- and P-substituents in N-aryl-phosphinoglycine ligands on selectivity of Ni-catalysed ethylene oligomerization // New J. Chem., 2022, Advance Article.
114 Сахапов, И.Ф. Специфическое поведение электрохимически генерируемого никельорганического сигма-комплекса [NiBr(Tcpp)(bpy)], где Tcpp – 2,4,6-трициклопентилфенил, bpy – 2,2'-бипиридил // Электрохимия. - 2022. - Т. 58. - С. 838–847. - https://doi.org/10.31857/S0424857022120064
115 Andreeva, I. V. Biofuel Additives: Thermodynamic Studies of Glycerol Ethers // Industrial & Engineering Chemistry Research. - 2022. - V. 61, № 41. - P. 15407-15413. - https://doi.org/10.1021/acs.iecr.2c02351
116 Verevkin, S. P. Is hydrogen bonding the reason for differences in vapour pressure and vaporisation energetics of optically active and racemic compounds? // Journal of Molecular Liquids. – 2022. - V. 362. - P. 119653. - https://doi.org/10.1016/j.molliq.2022.119653
117 Samarov, A. A. Interactions between substituents in the benzene ring. Experimental and theoretical study of methoxy substituted acetophenones // The Journal of Chemical Thermodynamics. - 2022. - V. 173. - P. 106847. - https://doi.org/10.1016/j.jct.2022.106847
118 Samarov, A. A. Comprehensive thermodynamic study of alkyl-biphenyls as a promising liquid organic hydrogen carriers // The Journal of Chemical Thermodynamics. - 2022. - V. 174. - P. 106872. - https://doi.org/10.1016/j.jct.2022.106872
119 Otlyotov, A. A. “In Vitro” and “In Vivo” Diagnostic Check for the Thermochemistry of Metal–Organic Compounds // Inorganic Chemistry. - 2022. - V. 61, № 28. - P. 10743-10755. - https://doi.org/10.1021/acs.inorgchem.2c00959
120 Bakhtiyarov, D.I. New complexes of gadolinium with dicarboxylate diphosphabetaines // Phosphorus, Sulfur, and Silicon and the Related Elements. – 2022. – V.197. – P.610-614.
121 Khannanov, A.A. Superparamagnetic cobalt nanoparticles in hyperbranched polyester polyol matrix with anti-protease activity // Journal of Magnetism and Magnetic Materials. – 2022. – V.547. – A168808.
122 Shurpik, D.N. Self-Healing Thiolated Pillar[5]arene Films Containing Moxifloxacin Suppress the Development of Bacterial Biofilms // Nanomaterials. – 2022. – V.12. – A1604.
123 Romanov, S.R. Reactions of Triphenylphospine with ω-Bromoalkanecarboxylic Acids // Russian Journal of General Chemistry. – 2022. – V.92. – P.1214-1220.
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