Публикации в которых опубликованы результаты работ, представленных на конкурс научных работ 2023 г.
1. Kirill S. Ershov, Alexandr S. Bogomolov, Alexander V. Demyanenko, Alexei O. Yanshin, Nikolay V. Dozmorov, Georgii A. Bogdanchikov, and Alexey V. Baklanov Origin of Near-Infrared Luminescence Provided by UV�Photoexcitation of TiO2‑Based and Non-TiO2‑Based Photocatalysts: Experiment and Theory
2. Alexander V. Demyanenko, Alexandr S. Bogomolov, Nikolay V. Dozmorov, Alexandra I. Svyatova, Alexandra P. Pyryaeva, Veniamin G. Goldort, Sergei A. Kochubei, and Alexey V. Baklanov Singlet Oxygen 1 O2 in Photocatalysis on TiO2. Where Does It Come from?
3. В. Г. Гольдорт А. В. Демьяненко А. С. Богомолов С. А. Кочубейa А. П. Пыряева А. В. Бакланов ШИРОКОПОЛОСНЫЙ ФОТОДЕТЕКТОР БЛИЖНЕГО И.К.-ДИАПАЗОНА НА ОСНОВЕ ФОТОДИОДА НА InGaAs С БОЛЬШОЙ СОБИРАЮЩЕЙ ПОВЕРХНОСТЬЮ ДЛЯ РЕГИСТРАЦИИ СИНГЛЕТНОГО КИСЛОРОДА
4. Georgii A. Bogdanchikov, Alexey V. Baklanov Binding of oxygen with titanium dioxide on singlet potential energy surface: An ab initio investigation
1. V.I. Borovkov K.A. Velizhanin A novel approach to study radical ion reactions in the course of geminate recombination by the quenching of time-resolved delayed fluorescence
2. Vsevolod I. Borovkov Excess electrons scavenging in n-dodecane solution: The role of tunneling of electron from its localized state to acceptor
3. I. S. Ivanishko V. I. Borovkov Experimental study of a diffusion-controlled reaction involving a chain molecule with terminal reactive sites
4. V.I. Borovkov I.S. Ivanishko a Pre-recombination quenching of the radiation induced fluorescence as the approach to study kinetics of ion-molecular reactions
5. I. S. Ivanishko, I. V. Beregovaya, S. Hartmann, W. K€ohler, and V. I. Borovkov Intrinsic Reaction Parameters for Electron Transfer from Aromatic Radical Anions to Vicinal Dibromoalkanes in Alkane Solutions
6. В. И. Боровков, А. Г. Матвеева, И. С. Иванишко, И. В. Береговая, В. А. Резников ПРОЯВЛЕНИЕ СТАТИСТИЧЕСКОГО СПИНОВОГО ФАКТОРА ПРИ ЗАХВАТЕ ИЗБЫТОЧНЫХ ЭЛЕКТРОНОВ СТАБИЛЬНЫМИ НИТРОКСИЛЬНЫМИ РАДИКАЛАМИ
7. Vsevolod I. Borovkov Irina S. Ivanishko Irina V. Beregovaya Vladimir A. Reznikov Turning on the triplet state channel in the excess electron scavenging by nitroxyl radicals in liquid alkanes
8. Vsevolod I. Borovkov, Irina S. Ivanishko, Victor A. Bagryansky, and Yuri N. Molin Spin-Selective Reaction with a Third Radical Destroys Spin Correlation in the Surviving Radical Pairs
9. Victor A. Bagryansky , Vsevolod I. Borovkov , Alena O. Bessmertnykh, Irina S. Tretyakova, Irina V. Beregovaya , and Yuri N. Molin Interaction of spin-correlated radical pair with a third radical: Combined effect of spin-exchange interaction and spin selective reaction
10. Victor A. Bagryansky, Anatoly R. Melnikov, Yuri N. Molin, et al The role of Heisenberg spin exchange and the quantum Zeno effect in the spin selective reaction between spin-1/2 and spin-1 particles
11. Vsevolod I. Borovkov, ab Victor A. Bagryansky ab and Yuri N. Molin a A spin statistical factor in electron transfer to oxygen molecules
1. E.M Glebov Supporting Information to paper Mechanism of Chain Photochemical Reaction of (n-Bu4N)2[PtCl6] in Chloroform
2. Svetlana G. Matveevaa , Vjacheslav P. Grivina , Victor F. Plyusnina, Danila B. Vasilchenko Evgeni M. Glebov Mechanism of chain photochemical reaction of (n-Bu4N)2[PtCl6] in chloroform
3. E.M Glebov Electronic Supplementary Material (ESI) for Photochemical & Photobiological Sciences. This journal is © The Royal Society of Chemistry and Owner Societies 2019
4. Marina V. Rogozina, Svetlana G. Matveeva, Evgeni M. Glebov and Roman G. Fedunov Quantum chemistry of OsCl6 2− photoaquation products and the reaction scheme†
5. Alexey A. Melnikov, Ivan P. Pozdnyakov, Sergey V. Chekalina and Evgeni M. Glebov Direct measurement of ultrafast intersystem crossing time for the PtIVBr6 2– complex
6. E.M. Glebov, S.G. Matveeva, I.P. Pozdnyakov, V.P. Grivin, V.F. Plyusnin, D.B. Vasilchenko, T.E. Romanova, A.A. Melnikov, S.V. Chekalin, R.G. Fedunov Photochemistry of Hexachloroosmate(IV) in Ethanol
7. E.M. Glebov, S.G. Matveeva, I.P. Pozdnyakov, V.P. Grivin, V.F. Plyusnin, D.B. Vasilchenko, T.E. Romanova, A.A. Melnikov, S.V. Chekalin, R.G. Fedunov Photochemistry of Hexachloroosmate(IV) in Ethanol
8. Е. М. Глебов , В. Ф. Плюснин О ПРИЧИНАХ ВЛИЯНИЯ РАСТВОРИТЕЛЯ НА ФОТОХИМИЮ КОМПЛЕКСА
9. E.M. Glebov, V.P. Grivin, V.F. Plyusnin, R.G. Fedunov, I.P. Pozdnyakov, V.V. Yanshole, D.B. Vasilchenko Photochemistry of Cerium(IV) Ammonium Nitrate (CAN) in Acetonitrile
10. Evgeni M. Glebov , Vjacheslav P. Grivin , Victor F. Plyusnin , Roman G. Fedunov , Ivan P. Pozdnyakov , Vadim V. Yanshole , Danila B. Vasilchenko d Photochemistry of cerium(IV) ammonium nitrate (CAN) in acetonitrile
11. Е. М. Глебов Методы фемтохимии при исследовании фотофизики и фотохимии галогенидных комплексов платиновых металлов
1. Denis S. Baranov Anna S. Smorygina and Sergei A. Dzuba Synthesis of Spin-Labeled Ibuprofen and Its Interaction with Lipid Membranes
2. Denis S. Baranov Anna S. Kashnik Anastasiya N. Atnyukova and Sergei A. Dzuba Spin-Labeled Diclofenac: Synthesis and Interaction with Lipid Membranes
3. Anna S. Smorygina, Elena A. Golysheva, and Sergei A. Dzuba Clustering of Stearic Acids in Model Phospholipid Membranes Revealed by Double Electron−Electron Resonance
4. Anna S. Kashnik Victoria N. Syryamina Barbara Biondi Cristina Peggion Fernando Formaggio Sergei A. Dzuba DEER/PELDOR Study of the Efect of Extremely Low Concentrations of the Antimicrobial Peptide Chalciporin A on the Membrane Lipid Organization
5. Anna S. Kashnik, Denis S. Baranov and Sergei A. Dzuba Ibuprofen in a Lipid Bilayer: Nanoscale Spatial Arrangement
6. Anna S. Kashnik Olga Yu. Selyutina Denis S. Baranov Nikolay E. Polyakov Sergei A. Dzuba Localization of the ibuprofen molecule in model lipid membranes revealed by spin-label-enhanced NMR relaxation
7. Vasily V. Unguryan, Elena A. Golysheva, and Sergei A. Dzuba Double Electron−Electron Resonance of Spin-Labeled Cholestane in Model Membranes: Evidence for Substructures inside the Lipid Rafts
1. Artëm M. Dmitriev, Ksenia N. Osipova, Denis A. Knyazkov, and Andrey G. Shmakov Propylene Oxide Addition Effect on the Chemical Speciation of a Fuel-Rich Premixed n‑Heptane/Toluene Flame
2. Keli Lin, Artëm M. Dmitriev, Wenyu Sun, Andrey G. Shmakov, Denis A. Knyazkov, and Bin Yang Improving the Predictive Accuracy for Ketene in Diacetyl Laminar Premixed Flames: Experiment and Model Analysis
3. A.M. Dmitriev K.N. Osipova A.G. Shmakov T.A. Bolshova D.A. Knyazkov P.A. Glaude c Laminar flame structure of ethyl pentanoate at low and atmospheric-pressure: Experimental and kinetic modeling study
4. Denis A. Knyazkov Artëm M. Dmitriev Oleg P. Korobeinichev Ksenia N. Osipova Gianmaria Pio Andrey G. Shmakov Ernesto Salzano d Structure of premixed flames of propylene oxide: Molecular beam mass spectrometric study and numerical simulation
5. Ilya E. Gerasimov Denis A. Knyazkov Tatyana A. Bolshova Andrey G. Shmakov Oleg P. Korobeinichev Maxime Carbonnier Benoîte Lefort Alan Kéromnès Luis Le Moyne Marco Lubrano Lavadera Alexander A. Konnove , Chong-Wen Zhouf , Zeynep Serinyel Guillaume Dayma Philippe Dagaut a Methyl-3-hexenoate combustion chemistry: Experimental study and numerical kinetic simulation
6. Ksenia N. Osipova, Artem M. Dmitriev, Andrey G. Shmakov, Oleg P. Korobeinichev,a Sergey S. Minaevc and Denis A. Knyazkov Combustion of ethyl acetate: the experimental study of flame structure and validation of chemical kinetic mechanisms
7. T. Bolshov V. Shvartsberg A. Dmitriev D. Knyazkov Flame structure and a compact reaction mechanism for combustion of dimethyl ether at atmospheric pressure
8. Denis A. Knyazkov, Artem M. Dmitriev, Oleg P. Korobeinichev, Elna J.K. Nilsson, Alexander A. Konnov & Krithika Narayanaswamy Experimental Study and a Short Kinetic Model for High-Temperature Oxidation of Methyl Methacrylate
9. A. M. Dmitriev K. N. Osipova D. A. Knyazkov I. E. Gerasimov A. G. Shmakov and O. P. Korobeinichev Comparative Analysis of the Chemical Structure of Ethyl Butanoate and Methyl Pentanoate Flames
10. D.A. Knyazkov I.E. Gerasimov N. Hansen A.G. Shmakov O.P. Korobeinichev Photoionization mass spectrometry and modeling study of a low-pressure premixed flame of ethyl pentanoate (ethyl valerate)
11. Ilya E. Gerasimov, Tatyana A. Bolshova, Ivan A. Zaev, Alexander V. Lebedev, Boris V. Potapkin, Andrey G. Shmakov, and Oleg P. Korobeinichev Reduced Chemical Kinetic Mechanism for Methyl Pentanoate Combustion
1. Evgeniy A. Alexandrov, Alena L. Litvinenko, Ekaterina S. Yastrebova, Dmitry I. Strokotov, Vyacheslav M. Nekrasov, Konstantin V. Gilev, Andrei V. Chernyshev, Andrey A. Karpenko and Valeri P. Maltsev 4p light scattering flow cytometry: enhancing the identification and characterization of individual cells
2. Andrey V. Romanov , Valeri P. Maltsev , Maxim A. Yurkin Retrieving refractive index of single spheres using the phase spectrum of light-scattering pattern
3. Dmitry I. Strokotov Vyacheslav M. Nekrasov Konstantin V. Gilev Andrey A. Karpenko Valeri P. Maltsev Ultraviolet light scattering scanning flow cytometry in the characterization of submicron microparticles
1. Rimma I. Samoilova Sergei A. Dikanov Local environment of superoxide radical formed on the surface of Ti(OiPr)4 catalyst exposed to H2O2
2. Rimma I. Samoilova and Sergei A. Dikanov Superoxide Radical Formed on the TiO2 Surface Produced from Ti(OiPr)4 Exposed to H2O2/KOH
3. Rimma I. Samoilova Sergei A. Dikanov Superoxide Radical Formed on the TiO2 Surface Produced from Ti(OiPr)4 Exposed to H2O2/KOH
4. Rimma I. Samoilova EPR Studies of the Reactive Oxygen Species on Powder TiO2
5. Rimma I. Samoilova Sergei A. Dikanov Superoxide generated in alkaline TiO2 powder
1. A. G. Korotkikh I. V. Sorokin, D. V. Teplov, and V. A. Arkhipov Combustion Characteristics of High-Energy Material Containing Dispersed Aluminum, Boron, and Aluminum Borides
2. А.Г Коротких, И.В Сорокин, Д.В Теплов, В.А Архипов Характеристики горения высокоэнергетического материала, содержащего дисперсный алюминий, бор и бориды алюминия
3. O.G. Glotov V.A. Poryazov G.S. Surodin I.V. Sorokin D.A. Krainov Combustion features of boron-based composite solid propellants
4. A. G. Korotkikh I. V. Sorokin and V. A. Arkhipov Laser Ignition of Aluminum and Boron Based Powder Systems
5. А. Г. Коротких И. В. Сорокин В. А. Архипов ЛАЗЕРНОЕ ЗАЖИГАНИЕ ПОРОШКОВЫХ СИСТЕМ НА ОСНОВЕ АЛЮМИНИЯ И БОРА
6. A. G. Korotkikh I. V. Sorokin and V. A. Arkhipov Effect of Ammonium Nitrate and Combustible Binder on the Ignition Characteristics of High-Energy Materials Containing Aluminum Borides
7. А. Г. Коротких, И. В. Сорокин, В. А. Архипов ВЛИЯНИЕ НИТРАТА АММОНИЯ И ГОРЮЧЕСВЯЗУЮЩЕГО ВЕЩЕСТВА НА ХАРАКТЕРИСТИКИ ЗАЖИГАНИЯ ВЫСОКОЭНЕРГЕТИЧЕСКИХ МАТЕРИАЛОВ, СОДЕРЖАЩИХ БОРИДЫ АЛЮМИНИЯ
8. А. Г. Коротких, И. В. Сорокин, В. А. Архипов ЗАЖИГАНИЕ ВЫСОКОЭНЕРГЕТИЧЕСКОГО МАТЕРИАЛА, СОДЕРЖАЩЕГО УЛЬТРАДИСПЕРСНЫЙ ПОРОШОК Al/B
9. A. G. Korotkikha, I. V. Sorokin, and V. A. Arkhipov Ignition of High Energy Material Containing Ultradispersed Al/B Powder
10. A. G. Korotkikha, and I. V. Sorokin Ignition of Al- and B-Based Dispersed Fuels by a Radiant Heat Flux
11. Alexander G. Korotkikh, Ivan V. Sorokin, Vladimir E. Zarko, and Vladimir A. Arkhipov Effect of Nanometal Additives on The Ignition of Al-Based Energetic Materials (book chapter)
1. Ivan P. Pozdnyakov, Yuliya E. Tyutereva, Alexander V. Mikheilis, Vyacheslav P. Grivin , Victor F. Plyusnin Primary photoprocesses for Fe(III) complexes with citric and glycolic acids in aqueous solutions
2. Yury A. Belikov, Olga A. Snytnikova, Vyacheslav P. Grivin, Victor F. Plyusnin , Jing Xu, Feng Wu, Ivan P. Pozdnyakov Photolysis of Fe(III) complex with ethylenediamine-N,N′ -disuccinic acid and its efficiency in generation of • OH radical
3. Yuliya E. Tyutereva, Mikhail V. Novikov, Olga A. Snytnikova, Ivan P. Pozdnyakov How to measure quantum yield of hydroxyl radical during photolysis of natural Fe(III) carboxylates?
4. Yuliya E. Tyutereva Vyacheslav P. Grivin Jing Xu Feng Wu Victor F. Plyusnin Ivan P. Pozdnyakov Iron (III) hydroxocomplex-methyl viologen dication system as a prospective tool for determination of hydroxyl radical reaction rate constants with environmental pollutants
5. Semen E. Erokhin , Olga A. Snytnikova , Mikhail V. Novikov , Roman G. Fedunov , Vyacheslav P. Grivin , Vadim V. Yanshole , Jing Xu , Feng Wu , Victor F. Plyusnin , Ivan P. Pozdnyakov Probing reactions between imipramine and hydroxyl radical with the photolysis of iron(III) oxalate: Implications for the indirect photooxidation of tricyclic antidepressants in waters
1. A A Chernov,A G Shmakov, O P Korobeinichev , K V Toropetsky , V N Moskvin and V I Tatarenko Effect of inhibitor addition on the Markstein length in a distorted premixed dimethyl ether/air flame
2. O. P. Korobeinichev A. G. Shmakov A. A. Chernov D. M. Markovich V. M. Dulin and D. K. Sharaborin Spatial and Temporal Resolution of the Particle Image Velocimetry Technique in Flame Speed Measurements
3. T. A. Bolshova O. P. Korobeinichev K. V. Toropetskii A. G. Shmakov and A. A. Chernov Catalytic Effect of Submicron TiO2 Particles on the Methane–Air Flames Speed
4. D.A. Knyazkov T.A. Bolshova V.M. Shvartsberg A.A. Chernov O.P. Korobeinichev Inhibition of premixed flames of methyl methacrylate by trimethylphosphate
5. D.A. Knyazkov, T.A. Bolshova, V.M. Shvartsberg, A.A. Chernov, O.P. Korobeinichev Inhibition of premixed flames of methyl methacrylate by trimethylphosphate
6. A. A. Chernov K. V. Toropetsky and O. P. Korobeinichev Estimation of the Characteristic Time Scale of a Laminar Flame by Particle Image Velocimetry
7. Oleg Korobeinichev Andrey Shmakov Anatoly Chernov Tatyana Bolshova Yana Terenteva Georgy Borisov The influence of K4[Fe(CN)6] aerosol on the flame speed of methane-air flame
1. Irina V. Khalo , Andrei A. Karpenko , Viktoriya S. Kozyreva , Anna N. Shilova , Olga A. Abubakirova , Dmitry I. Strokotov , Vyacheslav M. Nekrasov , Valeri P. Maltsev , Andrei V. Chernyshev Kinetic titration method in flow cytometry for quantification of cell receptors
2. Ekaterina S. Yastrebova Alla V. Gisich Vyacheslav M. Nekrasov Konstantin V. Gilev Dmitry I. Strokotov Andrei V. Chernyshev Andrey A. Karpenko Valeri P. Maltsev A light scatter based model relating erythrocyte vesiculation to lifetime in circulation
3. Ekaterina S. Yastrebova Vyacheslav M. Nekrasov Konstantin V. Gilev Alla V. Gisich Olga A. Abubakirova Dmitry I. Strokotov Andrey V. ChernyshevAndrey A. Karpenko Valeri P. Maltsev Erythrocyte lysis and angle-resolved light scattering measured by scanning flow cytometry result to 48 indices quantifying a gas exchange function of the human organism
