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Study of Thermal co-Decomposition of Manganese and Cerium Oxalates in Air and in Inert Media Full article

Journal Journal of Structural Chemistry
ISSN: 0022-4766 , E-ISSN: 1573-8779
Output data Year: 2021, Volume: 62, Number: 3, Pages: 467-480 Pages count : 14 DOI: 10.1134/s0022476621030148
Tags cerium oxide, fluorite, XRPD, manganese oxide, oxalate, thermal analysis, in situ
Authors Bulavchenko O.A. 1 , Vinokurov Z.S. 1 , Nikolaeva O.A. 1 , Afonasenko T.N. 2 , Tsybulya S.V. 1
Affiliations
1 Boreskov Institute of Catalysis, Siberian Branch, Russian Academy of Sciences, Novosibirsk, Russia
2 Center of New Chemical Technologies BIC, Russian Academy of Sciences, Omsk, Russia

Funding (2)

1 Russian Science Foundation 19-73-00097
2 Ministry of Science and Higher Education of the Russian Federation 05.621.21.0022 (RFMEFI62119X0022) (АААА-А20-120072290017-9)

Abstract: Controlled thermal decomposition of oxalate salts is a promising method for the preparation of highly dispersed materials. In this work, co-decomposition of Mn and Ce salts is studied upon variations of the cation ratio and the gas atmosphere of the process (air and inert gas). To this aim, a series of Mn and Ce oxalates is prepared by co-precipitation from aqueous solutions of nitrates with Mn:Ce ratios varying from 0:1 to 1:0. It is shown by X-ray powder diffraction and by scanning electron microscopy that cerium Ce(C2O4)3·10H2O and manganese MnC2O4·2H2O oxalates are formed. Also, increasing manganese content increases the amount of the corresponding salts and affects the morphology of the particles. It was shown by a number of physicochemical methods such as thermal analysis, in situ X-ray diffraction, and mass spectrometry shows that the oxalate decomposition proceeds in two stages and depends on the cation ratio and the decomposition atmosphere. The first stage is a weight loss accompanied by removal of structural water; this process is accelerated in a flow of an inert gas. The second stage is the formation of oxides from the anhydrous salt accompanied by CO2 or CO/CO2 release. Due to exothermic oxidation reaction, the decomposition occurs at lower temperatures in air than in an inert gas. The introduction of manganese does not significantly affect the temperature ranges of the first and second stages of salt decomposition. However, the addition of the second cation affects the decomposition product: as the manganese content increases, the size of CeO2 particles decreases and simple manganese oxides Mn3O4 and MnO are formed in air and in the inert atmosphere, respectively. The catalytic properties in the oxidation of CO, Mn and Ce oxides obtained by the decomposition of oxalates in an inert gas and in air are studied. It is shown that the catalysts formed in the oxidizing environment are more active.
Cite: Bulavchenko O.A. , Vinokurov Z.S. , Nikolaeva O.A. , Afonasenko T.N. , Tsybulya S.V.
Study of Thermal co-Decomposition of Manganese and Cerium Oxalates in Air and in Inert Media
Journal of Structural Chemistry. 2021. V.62. N3. P.467-480. DOI: 10.1134/s0022476621030148 WOS Scopus РИНЦ AN OpenAlex publication_identifier_short.sciact_ihcp_identifier_type
Original: Булавченко О.А. , Винокуров З.С. , Николаева О.А. , Афонасенко Т.Н. , Цыбуля С.В.
Исследование совместного термического разложения оксалатов марганца и церия на воздухе и в инертной среде
Журнал структурной химии. 2021. Т.62. №3. С.497-510. DOI: 10.26902/JSC_id69926 РИНЦ OpenAlex publication_identifier_short.sciact_ihcp_identifier_type
Dates:
Submitted: Jul 7, 2020
Accepted: Oct 22, 2020
Published print: Mar 1, 2021
Published online: Apr 16, 2021
Identifiers:
Web of science: WOS:000640793400014
Scopus: 2-s2.0-85104556047
Elibrary: 46086625
Chemical Abstracts: 2021:907581
OpenAlex: W3156530458
publication_identifier.sciact_ihcp_identifier_type: 3615
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