Публикации | Лаборатория №19 | Россия | Москва

СПИСОК ОСНОВНЫХ ПУБЛИКАЦИЙ ЗА ПОСЛЕДНЕЕ ДЕСЯТИЛЕТИЕ

2022

подробно описан "НЕФРИТ"

подробно описан "ИРИС"

2021

2020

2015

2019

2017

2018

2014

2013

2016

2022

V. Alekseev, N. Bystrov, A. Emelianov, A. Eremin, P. Yatsenko, A. Konnov. High-temperature oxidation of acetylene by N2O at high Ar dilution conditions and in laminar premixed C2H2 + O2 + N2 flames. Combust. Flame (2022), V. 238, 4, 111924, http://doi.org/10.1016/j.combustflame.2021.111924
Nativel D., Peukert S., Herzler J., Drakon A., Korshunova M., Mikheyeva E., Eremin A., Fikri M., Schulz C. Shock-tube study on the influence of oxygenated co-reactants on ethylene decomposition under pyrolytic conditions. Proc. COMBUST INST (2022), V. 39, http://doi.org/10.1016/j.proci.2022.07.209
Drakon A., Gurentsov E., Eremin A., Kolotushkin R., Khodyko E., Jander H. Kadochnikov I., Arsentiev I., Loukhovitski B., Sharipov A. Special features of soot formation in a standard premixed ethylene/air flame diluted with DME. Combust. Flame (2022), V. 246, 6, 112309, http://doi.org/10.1016/j.combustflame.2022.112309
Kadochnikov I., Arsentiev I., Loukhovitski B., Sharipov A. State-to-state vibrational kinetics of diatomic molecules in laser-induced ignition of a syngas-air mixture: modeling study. Chemical Physics (2022), V. 562, 111669, http://doi.org/10.1016/j.chemphys.2022.111669
Гуренцов Е.В., Кулешов П.С., Михеева Е.Ю. К вопросу об аномальном поведении оптической плотности железных наночастиц при их нагреве ударной волной. ТВТ (2022) Т. 60, 2, 213, https://doi.org/10.31857/S0040364422020119
Дракон А.В., Ерёмин А.В., Коршунова М.Р., Михеева Е.Ю. Сажеобразование при пиролизе этилена с добавками фурана и тетрагидрофурана. ФГВ (2022), Т. 58, 4, 41, https://doi.org/10.15372/fgv20220405
Ерёмин А.В., Коршунова М.Р., Михеева Е.Ю. Сажеобразование при пиролизе этилена с добавками метанола и бутанола. Горение и взрыв (2022), Т. 1, 22, doi: 10.30826/CE22150103

2021

Alexander Drakon, Alexander Eremin, Mayya Korshunova, Ekaterina Mikheyeva. PAH formation in the pyrolysis of benzene and dimethyl ether mixtures behind shock waves. Combust. Flame (2021), 232, 111548, https://doi.org/10.1016/j.combustflame.2021.111548
Emelianov, A.V., Eremin, A.V. & Fortov, V.E. Chemical Condensation Wave Initiating Oxygen-Free Combustion and Detonation. Russ. J. Phys. Chem. B 15, 299–306 (2021), https://doi.org/10.1134/S1990793121020160
G. Capriolo, N. Bystrov, A. Emelianov, A. Eremin, P. Yatsenko, A.A. Konnov. High-temperature oxidation of propanol isomers in the mixtures with N2O at high Ar dilution conditions. Fuel 287 (2021) 119499, https://doi.org/10.1016/j.fuel.2020.119499
Eremin A.V., Gurentsov E.V., Mikheyeva E. Yu., Kolotushkin R.N. Dependence of soot primary particle size on the height above a burner in target ethylene/air premixed flame. Combust. Sci. Tech. V. 194, Issue 14, P. 2847-2863 (2022), https://doi.org/10.1080/00102202.2021.1894138
Drakon A.V., Eremin A.V., Gurentsov E.V., Mikheyeva E. Yu., Kolotushkin R.N. Оptical properties and structure of acetylene flame soot. Аppl. Phys. B 2021, 127, Article number: 81, https://doi.org/10.1007/s00340-021-07623-8
Еремин А.В., Фортов В.Е. Детонационная волна конденсации. УФН 191 1131–1152 (2021) // Eremin A.V., Fortov V.E. Detonation wave of condensation. Phys. Usp. 64 1073–1093 (2021), https://doi.org/10.3367/UFNr.2021.02.038936
Pelevkin A.V., Loukhovitski B.I., Sharipov A.S. Reaction of N atom with electronically excited O2 Revisited: A theoretical study. J. Phys. Chem. A 2021, 125, 8294−8312, https://doi.org/10.1021/acs.jpca.1c05733
Sharipov A.S., Loukhovitski B.I. Energy disposal into the vibrational degrees of freedom of bimolecular reaction products: Key factors and simple model. Chemical Physics 2021, 544, 111098, https://doi.org/10.1016/j.chemphys.2021.111098

2020

N. Bystrov, A. Emelianov, A. Eremin, B. Loukhovitski, A. Sharipov, P. Yatsenko. Experimental study of high temperature oxidation of dimethyl ether, n-butanol and methane. Comb. Flame. 2020, V. 218, P. 121-133, https://doi.org/10.1016/j.combustflame.2020.04.003
А.В. Емельянов, А. В. Ерёмин, Е.Ю. Михеева, В.Е. Фортов. О возможности промотирования детонационной волны конденсации в ацетилене с добавками метана. ДОКЛАДЫ РОССИЙСКОЙ АКАДЕМИИ НАУК, 2020, Т. 490, № 1, стр. 47-50 // Emelianov, A.V., Eremin, A.V., Mikheyeva, E.Y. et al. On the Possibility of Promoting a Detonation Condensation Wave in Acetylene with Methane Additions. Dokl Phys Chem 490, 1–3 (2020), https://doi.org/10.1134/S0012501620010017
Eremin, A.V., Gurentsov, E.V. & Kolotushkin, R.N. The change of soot refractive index function along the height of premixed ethylene/air flame and its correlation with soot structure. Appl. Phys. B 126, 125 (2020), https://doi.org/10.1007/s00340-020-07426-3
Е.В. Гуренцов, А.В. Еремин, Р.Н. Колотушкин, Д. Н. Хмеленин, Ю. В. Григорьев. Разложение метана на поверхности наночастиц молибдена при комнатной температуре. КИНЕТИКА И КАТАЛИЗ, 2020, T. 61, № 2, стр. 225-234 // Gurentsov, E.V., Eremin, A.V., Kolotushkin, R.N. et al. Methane Decomposition on the Surface of Molybdenum Nanoparticles at Room Temperature. Kinet Catal 61, 224–231 (2020), https://doi.org/10.1134/S0023158420020068

2019

Bystrov N, Emelianov A, Eremin A, Loukhovitski B, Sharipov A, Yatsenko P. Direct measurements of C3F7I dissociation rate constants using a shock tube ARAS technique. INT J CHEM KINET, 2019, 52, 3, 206-214, http://dx.doi.org/10.1002/kin.21244
Helga Jander, Christine Borchers, Heidi Böhm, Alexander Emelianov, Christoph Schulz. Structure of carbonaceous nanoparticles formed in various pyrolysis systems. CARBON, 2019, 150, 244-258, https://doi.org/10.1016/j.carbon.2019.02.034
Eremin A., Gurentsov E. Evaporation temperature depression with decrease of iron nanoparticles size: Validation of semi-empirical models. MATER CHEM PHYS, 2019, 228, 180-186, http://dx.doi.org/10.1016/j.matchemphys.2019.02.052
S. Peukert, A. Sallom, A. Emelianov, T. Endres, M. Fikri, H. Böhm, H. Jander, A. Eremin, С. Schulz. The influence of hydrogen and methane on the growth of carbon particles during acetylene pyrolysis in a burnt-gas flow reactor. P COMBUST INST, 2019, 37, 247-254, http://dx.doi.org/10.1016/j.proci.2018.05.049
A. Eremin, E. Mikheyeva. The role of methyl radical in soot formation. COMBUST SCI TECHNOL, 2019, 191, 12, 2226-2242, http://dx.doi.org/10.1080/00102202.2018.1551892
Е.В. Гуренцов, А.В. Еремин, С.А. Мусихин. Исследование испарения лазерно-нагретых железо-углеродных наночастиц, при помощи анализа их теплового излучения. ЖУРНАЛ ТЕХНИЧЕСКОЙ ФИЗИКИ, 2019, 89, 8, 1200-1207 // Gurentsov, E.V., Eremin, A.V. & Musikhin, S.A. Study of Evaporation of Laser-Heated Iron–Carbon Nanoparticles Using Analysis of Thermal Radiation. Tech. Phys. 64, 1133–1139 (2019), https://doi.org/10.1134/S1063784219080085
А.В. Еремин, М.Р. Коршунова, Е.Ю. Михеева. О влиянии ингибиторов горения на уровень неравновесного излучения при воспламенении водородокислородных смесей за ударной волной. ФИЗИКА ГОРЕНИЯ И ВЗРЫВА, 2019, 55, 1, 136-139 // Eremin, A.V., Korshunova, M.R. & Mikheyeva, E.Y. Influence of Flame Suppressants on the Level of Nonequilibrium Radiation during Ignition of Hydrogen-Oxygen Mixtures behind Shock Waves. Combust Explos Shock Waves 55, 121–124 (2019), https://doi.org/10.1134/S0010508219010143
Дракон А.В., Еремин А.В., Азатян В.В. Особенности влияния галогеналканов на концентрационные пределы и период индукции воспламенения метано-воздушных смесей. ДОКЛАДЫ АКАДЕМИИ НАУК, 2019, 484, 3, 312-315 // Drakon, A.V., Eremin, A.V. & Azatyan, V.V. Features of Haloalkane Effect on the Concentration Limits and Induction Time for the Ignition of Methane–Oxygen Mixtures. Dokl Phys Chem 484, 20–22 (2019), https://doi.org/10.1134/S0012501619010068
И. С. Самойлов, А. В. Емельянов, А. В. Еремин, В. П. Полищук, Р. Х. Амиров. Исследование продуктов термодеструкции графита при квазистационарном нагреве. Успехи прикладной физики, 2019, 7, 4, 366-373, http://advance.orion-ir.ru/UPF-19/4/UPF-7-4-366.pdf
Alexander Eremin, Detonation. Wave of Condensation in Acetylene. Nova Science Publishers, Inc., 2019, 51, 163-198, https://novapublishers.com/shop/advances-in-chemistry-research-volume-51/

2018

Bystrov N.S., Emelianov A.V., Eremin A.V., Yatsenko P.I. Direct measurements of rate coefficients for thermal decomposition of CF3I using shock – tube ARAS technique. J PHYS D APPL PHYS, 2018, 51, 18, 184004, http://dx.doi.org/10.1088/1361-6463/aab8e5
A. Eremin, E. Mikheyeva, I. Selyakov. Influence of methane addition on soot formation in pyrolysis of acetylene. COMBUST FLAME, 2018, 193, 7, 83-91, http://dx.doi.org/10.1016/j.combustflame.2018.03.007
Alexander Drakon, Alexander Eremin. On Relative Effectiveness of Halogenated Hydrocarbons for Suppression of Hydrogen-Oxygen Mixture Autoignition. COMBUST SCI TECHNOL, 2018, 190, 3, 550-555, http://dx.doi.org/10.1080/00102202.2017.1402011
A.V. Eremin, E.V. Gurentsov, R.N. Kolotushkin, S. A. Musikhin. Room temperature synthesis and characterization of carbon encapsulated molybdenum nanoparticles. MATER RES BULL, 2018, 103, 186 196, http://dx.doi.org/10.1016/j.materresbull.2018.03.026
A. Drakon, A. Eremin, E. Mikheyeva, B. Shu, M. Fikri, C. Schulz. Soot formation in shock-wave-induced pyrolysis of acetylene and benzene with H2, O2, and CH4 addition. COMBUST FLAME, 2018, 198, 12, 158-168, http://dx.doi.org/10.1016/j.combustflame.2018.09.014
Alexander Drakon, Alexander Eremin. The influence of iodinated fire suppressants on shock-induced ignition of acetylene– and methane–oxygen mixtures. COMBUST SCI TECHNOL, 2018, 190, 11, 2061-2065, http://dx.doi.org/10.1080/00102202.2018.1481402
Bystrov N.S., Emelianov A.V., Eremin A.V., Yatsenko P.I. ARAS monitoring of various halogen atoms formation in pyrolysis reactions behind shock waves. Journal of Physics: Conference Series, 2018, 946, 012069, http://dx.doi.org/10.1088/1742-6596/946/1/012069
A. V. Eremin, E. V. Gurentsov, S. A. Musikhin. Diagnostics of carbon covered iron nanoparticles by laser heating. Journal of Physics: Conference Series, 2018, 946, 01206, https://doi.org/10.1088/1742-6596/946/1/012068
A. Eremin, M. Korshunova, E. Mikheyeva. Experimental study of chemiluminescence in UV and VIS range at hydrogen-oxygen mixtures ignition. MATEC Web of Conferences, 2018, 209, 00012, http://dx.doi.org/10.1051/matecconf/201820900012
Eremin A.V., Matveeva N.A., Mikheyeva E.Yu. Methane and hydrogen ignition with ethanol and butanol admixture. Journal of Physics: Conference Series, 2018, 946, 012063, http://dx.doi.org/10.1088/1742-6596/946/1/012063
Drakon A.V., Eremin A.V., Mikheyeva E.Yu. On chemical inhibition of shock wave ignition of hydrogen-oxygen mixtures. Journal of Physics: Conference Series, 2018, 946, 012062, http://dx.doi.org/10.1088/1742-6596/946/1/012062
Drakon A.V., Eremin A.V., Gurentsov E.V., Mikheyeva E.Yu., Musikhin S.A., Selyakov I.N. Promotion of methane ignition by the laser heating of suspended nanoparticles. Journal of Physics: Conference Series, 2018, 946, 012064, http://dx.doi.org/10.1088/1742-6596/946/1/012064
Emelianov A.V., Eremin A.V., Yatsenko P.I. The study of C2F4Br2 dissociation kinetics using ARAS and MRAS methods behind shock waves. Journal of Physics: Conference Series, 2018, 946, 012070, http://dx.doi.org/10.1088/1742-6596/946/1/012070

2017

A.V. Eremin, E.V. Gurentsov, S.A. Musikhin. Temperature influence on the properties of carbon-encapsulated iron nanoparticles forming in pyrolysis of gaseous precursors. J ALLOY COMPD, 2017, 727, 711-720, http://dx.doi.org/10.1016/j.jallcom.2017.08.155
Alexander Drakon, Alexander Eremin, Natalia Matveeva, Ekaterina Mikheyeva. The opposite influences of flame suppressants on the ignition of combustible mixtures behind shock waves. COMBUST FLAME, 2017, 176, 592-598, http://dx.doi.org/10.1016/j.combustflame.2016.11.001
Дракон А.В., Емельянов А.В., Еремин А.В., Яценко П.И. Исследование диссоциации трифторметана в широком диапазоне температур и давлений с использованием метода молекулярно-резонансной абсорбционной спектроскопии. ТВТ, 2017, 55, 2, 247-254 // Drakon, A.V., Emelianov, A.V., Eremin, A.V. et al. Study of trifluoromethane dissociation within wide pressure and temperature ranges by molecular resonance absorption spectroscopy. High Temp 55, 239–245 (2017), https://doi.org/10.1134/S0018151X17020043
Е.В. Гуренцов, А.В. Еремин, Е.Ю. Михеева. Исследование термодинамических свойств углеродных наночастиц методом лазерного нагрева. ТВТ, 2017, 55, 5, 737-745 // Gurentsov, E.V., Eremin, A.V. & Mikheyeva, E.Y. Study of thermodynamic properties of carbon nanoparticles by the laser heating method. High Temp 55, 723–730 (2017), https://doi.org/10.1134/S0018151X17040071
Емельянов А.В., Еремин А.В., Яценко П.И. Экспериментальное исследование взаимодействия атомов хлора с ацетиленом за ударными волнами. ТВТ, 2017, 55, 5, 806–812 // Emelianov, A.V., Eremin, A.V. & Yatsenko, P.I. Experimental study of chlorine atom interaction with acetylene behind shock waves. High Temp 55, 788–794 (2017), https://doi.org/10.1134/S0018151X17050054

2016

Gurentsov E. V., Eremin A.V., Musikhin S.A. Synthesis of binary iron-carbon nanoparticles by UV laser photolysis of Fe(CO)5 with various hydrocarbons. Mater Res Express, 2016, 3, 10, 105041, http://dx.doi.org/10.1088/2053-1591/3/10/105041
Е. В. Гуренцов, А. В. Еремин, Е. Ю. Михеева, С. А. Мусихин. Аномальное поведение оптической плотности железных наночастиц при их нагреве за ударными волнами. ТВТ, 2016, 54, 6, 960–962 // Gurentsov, E.V., Eremin, A.V., Mikheeva, E.Y. et al. Anomalous behavior of optical density of iron nanoparticles heated behind shock waves. High Temp 54, 902–904 (2016), https://doi.org/10.1134/S0018151X16060079
А.В. Дракон, А.В. Ерёмин, О.П. Коробейничев, В.М. Шварцберг, А. Г. Шмаков. Промотирующее действие галоген- и фосфорсодержащих ингибиторов горения на самовоспламенение смеси метана с кислородом. ФИЗИКА ГОРЕНИЯ И ВЗРЫВА, 2016, 52, 4, 3-14 // Drakon, A.V., Eremin, A.V., Korobeinichev, O.P. et al. Promoting effect of halogen- and phosphorus-containing flame retardants on the autoignition of a methane–oxygen mixture. Combust Explos Shock Waves 52, 375–385 (2016), https://doi.org/10.1134/S0010508216040018
A V Eremin, E V Gurentsov, E Yu Mikheyeva and S A Musikhin. Binary iron-carbon nanoparticle synthesis in photolysis of Fe(CO)5 with methane and acetylene. Journal of Physics: Conference Series, 2016, 774, 012127, http://dx.doi.org/10.1088/1742-6596/774/1/012127
Eremin A.V., Gurentsov E.V. Ignition delays in methane-oxigen mixtures in the presence of small amount of iron or carbon nanoparticles. Journal of Physics: Conference Series, 2016, 774, 012085, http://dx.doi.org/10.1088/1742-6596/774/1/012085

2015

A. Emelianov, A. Eremin, E. Gurentsov, E. Mikheyeva, M. Yurischev. Experimental study of soot size decrease with pyrolysis temperature rise. P COMBUST INST, 2015, 35, 2, 1753-1760, http://dx.doi.org/10.1016/j.proci.2014.08.030
Alexander Eremin, Evgeny Gurentsov, Ekaterina Mikheyeva. Experimental study of temperature influence on carbon particle formation in shock wave pyrolysis of benzene and benzene–ethanol mixtures. COMBUST FLAME, 2015, 162, 1, 207-215, http://dx.doi.org/10.1016/j.combustflame.2014.09.015
Eremin A.V., Gurentsov E.V., Musikhin S.A. Kinetics of Mo atom formation and consumption in UV multiphoton dissociation of Mo(CO)(6) at room temperature. Phys. Scr. 90, 128006, http://dx.doi.org/10.1088/0031-8949/90/12/128006
A. Drakon, A. Eremin. Promotion of methane ignition by the fire suppressants CCl4 and CF3H, COMBUST FLAME, 2015, 162, 6, 2746-2747, http://dx.doi.org/10.1016/j.combustflame.2015.02.006
Eremin, A.V., Gurentsov, E.V. Sizing of Mo nanoparticles synthesised by Kr–F laser pulse photo-dissociation of Mo(CO)6. Appl. Phys. A 119, 615–622 (2015), https://doi.org/10.1007/s00339-015-9000-z
Гуренцов Е.В., Еремин А.В. Синтез металлоуглеродных наночастиц при импульсном УФ фотолизе смесей Fe(CO)5 с CCl4 при комнатной температуре. ПИСЬМА В ЖТФ, 2015, 41, 11, 71-78, http://journals.ioffe.ru/articles/41917
В. В. Голуб, Е. В. Гуренцов, А. В. Емельянов, А. В. Еремин, В. Е. Фортов. Энергия детонационного пиролиза ацетилена. ТВТ, 2015, 53, 3, 383-389 // Golub, V.V., Gurentsov, E.V., Emelyanov, A.V. et al. Energy gain of the detonation pyrolysis of acetylene. High Temp 53, 363–369 (2015), https://doi.org/10.1134/S0018151X15030062
A.V. Eremin, E.V. Gurentsov, S.A. Musikhin. Molybdenum atoms yield in pulse ultraviolet laser photolysis of Mo(CO)6. Journal of Physics: Conference Series, 2015, 653, ноябрь, 012029, http://dx.doi.org/10.1088/1742-6596/653/1/012029
A.V. Drakon, A.V. Emelianov, A.V. Eremin, E.Yu. Mikheyeva. Opposite influence of haloalkanes on combustion and pyrolysis of acetylene. Journal of Physics: Conference Series, 2015, 653, 012058, http://dx.doi.org/10.1088/1742-6596/653/1/012058
A. Emelianov, A. Eremin, and S. Kulikov. About the Nature of Nonequilibrium Radiation of I2 in the Front of a Shock Wave. 29th International Symposium on Shock Waves, Springer, 2015, 2, 1597-1602, http://dx.doi.org/10.1007/978-3-319-16838-8_130

2014

Drakon, A., Emelianov, A. Eremin, A. Influence of CF3H and CCl4 additives on acetylene detonation. Shock Waves 24, 231–237 (2014), https://doi.org/10.1007/s00193-013-0453-8
Дракон А.В., Емельянов А.В., Еремин А.В., Петрушевич Ю.В., Старостин А.Н., Таран М.Д., Фортов В.Е. Влияние квантовых эффектов на инициирование воспламенения и детонации. ЖУРНАЛ ЭКСПЕРИМЕНТАЛЬНОЙ И ТЕОРЕТИЧЕСКОЙ ФИЗИКИ, 2014, 145, 5, 943-957 // Drakon, A.V., Emelianov, A.V., Eremin, A.V. et al. Influence of quantum effects on the initiation of ignition and detonation. J. Exp. Theor. Phys. 118, 831–843 (2014), https://doi.org/10.1134/S1063776114040025
А.В. Емельянов, А.В. Еремин, В.Е. Фортов, Детонационная волна конденсации. В книге «Физика ударных волн, горения, взрыва, детонации и неравновесных процессов», ИТМО им Лыкова, НАН Беларуси, Минск, 2.09.2014
Bronin S.Y., Emelianov A.V., Eremin A.V., Khrapak A.G., Mikheyeva E.Y. Experimental and Theoretical Study of the Charging of Carbon Nanoparticles in Shock-Heated Plasma during Pyrolysis of Carbon-Containing Molecules. Ukr J Phys, 2014, 59, 4, 405-410, https://doi.org/10.15407/ujpe59.04.0405

2013

A. Drakon, M. Aghsaee, A. Eremin, S. Dürrstein, H. Böhm, H. Somnitz, M. Fikri, C. Schulz. Experimental investigation and modeling of the kinetics of CCl4 pyrolysis behind reflected shock waves using high-repetition-rate time-of-flight mass spectrometry. PHYS CHEM CHEM PHYS, 2013, 15, 8, 2821-2828, https://doi.org/10.1039/C2CP42574B
Eremin, A., Gurentsov, E., Mikheyeva, E. et al. Experimental study of carbon and iron nanoparticle vaporisation under pulse laser heating. Appl. Phys. B 112, 421–432 (2013), https://doi.org/10.1007/s00340-013-5530-2
Eremin, A.V., Gurentsov, E.V. & Priemchenko, K.Y. Iron nanoparticle growth induced by Kr–F excimer laser photolysis of Fe(CO)5. J Nanopart Res 15, 1737 (2013), https://doi.org/10.1007/s11051-013-1737-8
Gurentsov E., Priemchenko K., Grimm H., Orthner H., Wiggers H., Borchers C., Jander H., Eremin A.V., Schulz Ch. Synthesis of small carbon nanoparticles in a microwave plasma flow reactor. Zeitschrift für Physikalische Chemie, 2013, 27, 4, 357-370, https://doi.org/10.1524/zpch.2013.0369
Гуренцов Е.В., Еремин А. В., Приемченко К.Ю. Исследование процесса образования и кластеризации атомов железа при импульсном лазерном фотолизе Fe(CO)5. ЖУРНАЛ ТЕХНИЧЕСКОЙ ФИЗИКИ, 2013, 83, 9, 98-107 // Gurentsov, E.V., Eremin, A.V. & Priemchenko, K.Y. Analysis of the production and clusterization of iron atoms under pulsed laser photolysis of Fe(CO)5 . Tech. Phys. 58, 1337–1345 (2013), https://doi.org/10.1134/S1063784213090144
А.В. Еремин. Новая модель формирования углеродных наночастиц в процессах пиролиза за ударными волнами, ТВТ, 2013, 51, 5, 747-754 // Eremin, A.V. A new model for carbon nanoparticle formation in the pyrolysis process behind shock waves. High Temp 51, 673–680 (2013), https://doi.org/10.1134/S0018151X1304007X
А.В. Емельянов, А.В. Еремин, С.В. Куликов. О природе неравновесного излучения молекул йода во фронте ударной волны. ЖУРНАЛ ТЕХНИЧЕСКОЙ ФИЗИКИ, 2013, 83, 5, 24-29 // Emelianov, A.V., Eremin, A.V. & Kulikov, S.V. On the origin of nonequilibrium radiation from iodine molecules at the shock wave front. Tech. Phys. 58, 647–652 (2013), https://doi.org/10.1134/S1063784213050071

2012

Alexander Eremin, Evgeny Gurentsov, Ekaterina Mikheyeva. Experimental study of molecular hydrogen influence on carbon particle growth in acetylene pyrolysis behind shock wave. COMBUST. FLAME, 2012, 159, 3607-3615, https://doi.org/10.1016/j.combustflame.2012.07.011
H. Böhm, A. Emelianov, A. Eremin, C. Schulz, H. Jander. On the effect of molecular and hydrocarbon-bonded hydrogen on carbon particle formation in C3O2 pyrolysis behind shock waves. Combust. Flame, 2012, 159, 3, 932-939, https://doi.org/10.1016/j.combustflame.2011.09.012
A.V. Eremin. Formation of carbon nanoparticles from the gas phase in shock wave pyrolysis processes. Progress in Energy and Combustion Science, 2012, 38, 1, 1-40, https://doi.org/10.1016/j.pecs.2011.09.002
С. Я. Бронин, А. В. Емельянов, А. В. Еремин, А. Г. Храпак. Влияние атомов хлора на кинетику зарядки углеродных наночастиц формирующихся в ударно-нагретой плазме. ТВТ, 2012, Т. 50, №. 6, С. 739-745 // Bronin, S.Y., Emelianov, A.V., Eremin, A.V. et al. The effect of chlorine atoms on the charging kinetics of carbon nanoparticles forming in shock-heated plasma. High Temp 50, 687–693 (2012), https://doi.org/10.1134/S0018151X12060016
A.V. Drakon, A.V. Emelianov, A.V. Eremin, E.V. Gurentsov, Yu.V. Petrushevich, A. N. Starostin, M. D. Taran and V. E. Fortov Quantum Phenomena in Ignition and Detonation at Elevated Density. PHYSICAL REVIEW LETTERS, 109, Issue: 18, (2012) Р. 183201, https://doi.org/10.1103/PhysRevLett.109.183201

2011

Гуренцов Е.В., Еремин А.В. Измерение размеров углеродных и железных наночастиц методом лазерно-индуцированной инкандесценции. ТВТ, 2011, Т. 47, № 5, С. 687-695 // Gurentsov, E.V., Eremin, A.V. Size measurement of carbon and iron nanoparticles by laser induced incadescence. High Temp 49, 667 (2011), https://doi.org/10.1134/S0018151X11050087
A. Emelianov, A. Eremin, H. Jander, H.Gg.Wagner. Carbon condensation wave in C3O2 and C2H2 initiated by a shock wave. Proceedings of the Combustion Institute. 2011, V. 33, P. 525-532, https://doi.org/10.1016/j.proci.2010.05.103
А.В. Емельянов, А.В. Еремин, Ю.В. Петрушевич, Е.Э. Сивкова, А.Н. Старостин, М.Д. Таран, В.Е. Фортов. Квантовые эффекты в кинетике инициирования детонационных волн конденсации. Письма в ЖЭТФ, 2011, Т. 94, вып. 7, С. 570-575 // Emelianov, A.V., Eremin, A.V., Petrushevich, Y.V. et al. Quantum effects in the kinetics of the initiation of detonation condensation waves. Jetp Lett. 94, 530–534 (2011), https://doi.org/10.1134/S0021364011190064
С.Я. Бронин, А.В. Емельянов, А.В. Еремин, А.Г. Храпак. Исследование кинетики зарядки углеродных наночастиц в ударно-нагретой плазме. ТВТ, 2011, Т. 49, № 3, С. 357-364 // Bronin, S.Y., Emelianov, A.V., Eremin, A.V. et al. Investigation of the kinetics of carbon nanoparticle charging in shock-heated plasma. High Temp 49, 349–355 (2011), https://doi.org/10.1134/S0018151X11020039
Eremin, A., Gurentsov, E., Popova, E. et al. Size dependence of complex refractive index function of growing nanoparticles, Appl. Phys. B. 104, 285–295 (2011), https://doi.org/10.1007/s00340-011-4420-8

2010

А.В. Емельянов, А.В. Еремин, В.Е. Фортов. Формирование детонационной волны при термическом разложении ацетилена. Письма в ЖЭТФ, 2010, Т. 92, вып. 2, С. 101-105 // A.V. Emelianov, A.V. Eremin, V.E. Fortov. Formation of a detonation wave in the thermal decomposition of acetylene. JETP Letters, 2010, V. 92, P. 97–101, doi.org/10.1134/S0021364010140055
А.В. Емельянов, А.В. Еремин, А.А. Макеич, В.Е. Фортов. Формирование детонационной волны при конденсации пересыщенного углеродного пара. ТВТ, 2010, Т. 48, № 6, С. 862-868 // A.V. Emelianov, A.V. Eremin, A.A. Makeich, V.E. Fortov. High Temperature. V. 48, P. 823–829, https://doi.org/10.1134/S0018151X10060088
А.В. Емельянов, А.В. Еремин, В.Е. Фортов. Формирование детонационной волны при химической конденсации углеродных наночастиц. ИФЖ, 2010, Т. 83, № 6, С. 1130-1141 // A.V. Emelianov, A.V. Eremin, V.E. Fortov. Formation of a detonation wave in the process of chemical condensation of carbon nanoparticles. Journal of Engineering Physics and Thermophysics, 2010, V. 83, P. 1197–1209, https://doi.org/10.1007/s10891-010-0442-z
A. Emelianov, A. Eremin. Detonation wave initiated by explosive condensation of supersaturated carbon vapor, Shock Waves. 2010, V. 20, № 6, P. 491-498, https://doi.org/10.1007/s00193-010-0254-2
A. Emelianov, A. Eremin, H. Jander, H. Gg. Wagner. Formation of condensed particles in premixed flames catalyzed by metal carbonyls, Zeitschrift fur Physikalische Chemie. 2010, V. 224, № 5, P. 715-727, https://doi.org/10.1524/zpch.2010.5397
А.В. Дракон, А.В. Еремин, С.В. Куликов, В.Е. Фортов. О природе неравновесных явлений во фронте ударной волны. ДАН, 2010, Т. 432, вып. 3, С. 326-328 // A.V. Emelianov, A.V. Eremin, V.E. Fortov, S.V. Kulikov. THE NATURE OF NONEQUILIBRIUM PHENOMENA IN THE SHOCK-WAVE FRONT. Doklady Physics, 2010, Т. 55. № 5, С. 207-210, https://doi.org/10.1134/S102833581005001

подробно описан "ПИОН"

2012

2011

2010