1
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Vasilyeva I.G.
,
Vikulova E.S.
,
Pochtar A.A.
,
Morozova N.B.
Mixed Films Based on MgO for Secondary Electron Emission Application: General Trends and MOCVD Prospects
Coatings. 2021.
V.11. N2. 176
:1-16. DOI: 10.3390/coatings11020176
publication_identifier_short.wos_identifier_type
publication_identifier_short.scopus_identifier_type
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2
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Bulavchenko O.A.
,
Afonasenko T.N.
,
Osipov A.R.
,
Pochtar A.A.
,
Saraev A.A.
,
Gerasimov E.Y.
The Formation of Mn-Ce Oxide Catalysts for CO Oxidation by Oxalate Route: The Role of Annealing Conditions
Catalysis Letters. 2021.
DOI: 10.1007/s10562-021-03542-7
publication_identifier_short.wos_identifier_type
publication_identifier_short.scopus_identifier_type
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3
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Bulavchenko O.A.
,
Pochtar A.A.
,
Gerasimov E.Y.
,
Fedorov A.V.
,
Chesalov Y.A.
,
Saraev A.A.
,
Yakovlev V.A.
,
Kaichev V.V.
Chemical and Texture Promoters in Cu-Fe-Al Oxide Nanocomposite Catalysts for Combustion of Solid Fuel Gasification Products
Applied Catalysis A: General. 2020.
V.590. 117364
:1-8. DOI: 10.1016/j.apcata.2019.117364
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publication_identifier_short.scopus_identifier_type
publication_identifier_short.rinz_identifier_type
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4
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Netskina O.V.
,
Pochtar A.A.
,
Komova O.V.
,
Simagina V.I.
Solid-State NaBH4 Composites as Hydrogen Generation Material: Effect of Thermal Treatment of a Catalyst Precursor on the Hydrogen Generation Rate
Catalysts. 2020.
V.10. N2. 201
:1-12. DOI: 10.3390/catal10020201
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publication_identifier_short.scopus_identifier_type
publication_identifier_short.rinz_identifier_type
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5
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Dokuchits E.V.
,
Larina T.V.
,
Gerasimov E.Y.
,
Pochtar A.A.
,
Minyukova T.P.
Syngas Conversion over Perovskite-like LaCuxTi1-xO3/KIT-6 Catalysts
Applied Catalysis A: General. 2020.
V.608. 117834
:1-8. DOI: 10.1016/j.apcata.2020.117834
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publication_identifier_short.scopus_identifier_type
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6
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Kostyukov A.I.
,
Baronskiy M.G.
,
Larina T.V.
,
Snytnikov V.N.
,
Zaitseva N.A.
,
Pochtar A.A.
,
Ishchenko A.V.
,
Cherepanova S.V.
,
Snytnikov V.N.
Laser Vaporized CrOx/Al2O3 Nanopowders as a Catalyst for Isobutane Dehydrogenation
Materials Characterization. 2020.
V.169. P.110664-110678. DOI: 10.1016/j.matchar.2020.110664
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publication_identifier_short.scopus_identifier_type
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7
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Vasilyeva I.G.
,
Vikulova E.S.
,
Morozova N.B.
,
Pochtar A.A.
,
Igumenov I.K.
Invisible Surface Oxygen Vacancies in a Thin MgO Film: Impacts on the Chemical Activity and Secondary Electron Emission
Inorganic Chemistry. 2020.
V.59. N24. P.17999-18009. DOI: 10.1021/acs.inorgchem.0c02351
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publication_identifier_short.scopus_identifier_type
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8
|
Simagina V.I.
,
Komova O.V.
,
Odegova G.V.
,
Netskina O.V.
,
Bulavchenko O.A.
,
Pochtar’ A.A.
,
Kayl N.L.
Study of Copper-Iron Mixed Oxide with Cubic Spinel Structure, Synthesized by the Combustion Method
Russian Journal of Applied Chemistry. 2019.
V.92. N1. P.20-30. DOI: 10.1134/S1070427219010038
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publication_identifier_short.scopus_identifier_type
publication_identifier_short.rinz_identifier_type
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9
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Komova O.V.
,
Odegova G.V.
,
Gorlova A.M.
,
Bulavchenko O.A.
,
Pochtar A.A.
,
Netskina O.V.
,
Simagina V.I.
Copper–Iron Mixed Oxide Catalyst Precursors Prepared by Glycine-Nitrate Combustion Method for Ammonia Borane Dehydrogenation Processes
International Journal of Hydrogen Energy. 2019.
V.44. N44. P.24277-24291. DOI: 10.1016/j.ijhydene.2019.07.137
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publication_identifier_short.scopus_identifier_type
publication_identifier_short.rinz_identifier_type
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10
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Vikulova E.S.
,
Pochtar A.A.
,
Morozova N.B.
,
Vasilyeva I.G.
Features of the MOCVD Formation of MgO−RuO2 Electron-Emitting Film Structures
Journal of Structural Chemistry. 2019.
V.60. N8. P.1352-1360. DOI: 10.1134/S002247661908016X
publication_identifier_short.wos_identifier_type
publication_identifier_short.scopus_identifier_type
publication_identifier_short.rinz_identifier_type
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11
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Pochtar’ A.A.
,
Malakhov V.V.
New Stoichiographic Methods for Assessing Spatial Inhomogeneities in the Composition and Structure of Solid Substances and Materials
Inorganic Materials. 2018.
V.54. N7. P.749-755. DOI: 10.1134/s0020168518070130
publication_identifier_short.wos_identifier_type
publication_identifier_short.scopus_identifier_type
publication_identifier_short.rinz_identifier_type
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12
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Pochtarʹ A.A.
,
Malakhov V.V.
Stoichiographic Determination of the Composition and Concentration of Phases Encapsulated in the Bulk of a Solid Matrix Phase
Journal of Analytical Chemistry. 2017.
V.72. N7. P.719-723. DOI: 10.1134/S1061934817070097
publication_identifier_short.wos_identifier_type
publication_identifier_short.scopus_identifier_type
publication_identifier_short.rinz_identifier_type
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13
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Netskina O.V.
,
Komova O.V.
,
Prosvirin I.P.
,
Pochtar’ A.A.
,
Ozerova A.M.
,
Simagina V.I.
Solid-State Hydrogen-Generating Composites Based on Sodium Borohydride: Effect of the Heat Treatment of Boron–Cobalt Catalysts on the Hydrogen Generation Rate
Russian Journal of Applied Chemistry. 2017.
V.90. N10. P.1666-1673. DOI: 10.1134/s1070427217100160
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publication_identifier_short.scopus_identifier_type
publication_identifier_short.rinz_identifier_type
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14
|
Vasilyeva I.
,
Kuzʹmicheva G.
,
Pochtar A.
,
Gainanova A.
,
Timaeva O.
,
Dorokhov A.
,
Podbel'skiy V.
On the Nature of the Phase “η-TiO2”
New Journal of Chemistry. 2016.
V.40. P.151-161. DOI: 10.1039/C5NJ01870F
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publication_identifier_short.rinz_identifier_type
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15
|
Komova O.V.
,
Simagina V.I.
,
Mukha S.A.
,
Netskina O.V.
,
Odegova G.V.
,
Bulavchenko O.A.
,
Ishchenko A.V.
,
Pochtar' A.A.
A Modified Glycine–Nitrate Combustion Method for One-Step Synthesis of LaFeO3
Advanced Powder Technology. 2016.
V.27. N2. P.496-503. DOI: 10.1016/j.apt.2016.01.030
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publication_identifier_short.scopus_identifier_type
publication_identifier_short.rinz_identifier_type
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16
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Komova O.V.
,
Mukha S.A.
,
Netskina O.V.
,
Odegova G.V.
,
Pochtarʹ A.A.
,
Ishchenko A.V.
,
Simagina V.I.
A Solid Glycine-Based Precursor for the Preparation of La2CuO4 by Combustion Method
Ceramics International. 2015.
V.41. N1, Part B. P.1869-1878. DOI: 10.1016/j.ceramint.2014.09.139
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17
|
Yakovleva I.S.
,
Kuznetsova A.V.
,
Gerasimov E.Y.
,
Pochtarʹ A.
,
Isupova L.A.
Microwave Synthesis of LaBO3 (B = Co, Fe) Perovskites Using Graphite and Citric Acid Additions
Kinetics and Catalysis. 2014.
V.55. N5. P.630-638. DOI: 10.1134/S0023158414050188
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publication_identifier_short.scopus_identifier_type
publication_identifier_short.rinz_identifier_type
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18
|
Pochtarʹ A.A.
,
Vasilʹeva I.G.
,
Malakhov V.V.
Detecting Spatial Inhomogeneity Manifestations in the Chemical Composition of Functional Materials by Stoichiographic Methods
Journal of Structural Chemistry. 2014.
V.55. N6. P.1160-1165. DOI: 10.1134/S0022476614060262
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publication_identifier_short.rinz_identifier_type
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19
|
Dovlitova L.S.
,
Pochtarʹ A.A.
,
Malakhov V.V.
Determination of the Phase Composition of Catalyst Precursors for Multiwall Carbon Nanotubes by the Stoichiographic Differential Dissolution Method
Journal of Structural Chemistry. 2014.
V.55. N6. P.1166-1171. DOI: 10.1134/S0022476614060274
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publication_identifier_short.rinz_identifier_type
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20
|
Vasilyeva I.G.
,
Pochtar A.A.
,
Isaenko L.I.
Origin of the Solid Solution in the LiInSe2–In2Se3 System
Journal of Solid State Chemistry. 2014.
V.220. P.91-96. DOI: 10.1016/j.jssc.2014.08.013
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publication_identifier_short.rinz_identifier_type
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21
|
Dovlitova L.S.
,
Pochtarʹ A.A.
,
Malakhov V.V.
Determination of the Chemical Composition of Modified Fiber Glass Silicate Materials by Differential Dissolution
Journal of Analytical Chemistry. 2013.
V.68. N1. P.72-79. DOI: 10.1134/S1061934813010061
publication_identifier_short.wos_identifier_type
publication_identifier_short.scopus_identifier_type
publication_identifier_short.rinz_identifier_type
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22
|
Dovlitova L.S.
,
Pochtarʹ A.A.
,
Boldy'reva N.N.
,
Malakhov V.V.
Determination of the Chemical Composition of Supported Vanadium-Containing Oxide Catalysts by the Differential Dissolution Method
Journal of Analytical Chemistry. 2011.
V.66. N1. P.88-93. DOI: 10.1134/S1061934810111012
publication_identifier_short.wos_identifier_type
publication_identifier_short.scopus_identifier_type
publication_identifier_short.rinz_identifier_type
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23
|
Dovlitova L.S.
,
Pochtarʹ A.A.
,
Boldy'reva N.N.
,
Malakhov V.V.
Determination of the Chemical Composition of Fiberglass Silicate Materials by the Differential Dissolution Method
Journal of Analytical Chemistry. 2011.
V.66. N10. P.981-990. DOI: 10.1134/S1061934811080090
publication_identifier_short.wos_identifier_type
publication_identifier_short.scopus_identifier_type
publication_identifier_short.rinz_identifier_type
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