Steklo i Keramika (Glass and Ceramics). Monthly scientific, technical and industrial journal

 

ISSN 0131-9582 (Online)

Production and thermal stability of nanodisperse bicomponent materials in SnO2?СеO2 system

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Autors: Liberman E. Yu., Mikhailichenko A. I., Malysheva T. N., Kon?kova T. V., Kolesnikov V. A.
  • Continuous numbering: 1077
  • Pages: 18-21
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Heading: Science for ceramic production

Oleksenko L.P., Maksimovich N.P., Matushko I.P., Chubaevskaya N.V. Nanoscale sensor materials based on CeO2 / SnO2? Sb2O5 // Russian Journal of Physical Chemistry. 2015.Vol. 89.? 3.S. 470? 475. 2. Mihaiu S., Braileanu A., Ban M. et al. Sn? Ce? O advanced mate-rials obtained by thermal decomposition of some precursors // Journal of Optoelectronics and Advanced Materials. 2006. V. 8. N 2. P. 572? 575. 3. Boronin AI, Korenev SV, Novopashin SA Catalysts for low-temperature CO oxidation based on Pd / CeO2 - SnO2 composites synthesized under nonequilibrium conditions // Proceedings of the II Russian Congress on catalysis? Roskataliz ?, Samara, 2? October 5, 2014 Samara, 2014. P. 104. 4. Scurtu M., Mihaiu C., Zaharescu M. Surface evolution of the Sn? Ce? O powders in various atmospheres // Reaction Kinetics, Mechanisms and Catalysis. 2012. V. 105. N 1. P. 135? 144. 5. Teterycz H., Klimkiewicz R., Laniecki M. Study on physico-chemaical properties of tin dioxide based gas sensitive materials used in condensation reactios of n-butanol // Applied Catalysis A: General. 2004. V. 274. P. 49? 60. 6. Khalipova OS, Kuznetsova SA, Galanov SI Synthesis of supported catalysts for deep oxidation of methane based on SnO2? CeO2 // Inorganic materials. 2016.Vol . 52.? 4.S. 417? 422. 7. Wu S., Li C., Wei W. et al. Synthesis and photocatalytic property of Ce-doped SnO2 // Journal of rare earths. 2010. V. 28. P. 16? 18. 8. Gupta A., Kumar A., ??Hegde MS, Waghmare UV Structure of Ce1-xSnxO2 and its relation to oxygen storage property from first-principles analysis // The Journal of Chemical Physics. 2010. V. 132. Is. 19. P. 194702. 9. Ivanova AI Physicochemical and catalytic properties of systems based on CeO2 // Kinetics and Catalysis. 2009.Vol . 50.? 6.S. 831? 849. 10. Ivanov VK, Shcherbakov AB, Baranchikov AE, Kozik VV Nano-crystalline cerium dioxide: properties, production, application. Tomsk: Publishing house Tomsk. University, 2013.12 p. 11. Spivakovsky VB Analytical chemistry of tin. Moscow: Nauka, 1975.252 p.
Cand. chem. Sciences E. Yu. LIBERMAN ( e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it. ), Dr. Sciences A. I. MIKHAILI-CHENKO ( e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it. ), T. N. MALYSHEVA ( e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it. ), Cand. tech. Sciences T. V. KONKOVA ( e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it. ), Dr. Sciences V. A. KOLESNIKOV ( e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it. ); FSBEI HPE & # 171; Russian Chemical-Technological University named after D. I. Mendeleev & # 187; (Russia, Moscow)
The possibility of formation and thermal stability of nanodispersed bicomponent materials of the SnO 2 ? СеO 2 system have been investigated. The samples were identified using XRD, HRTEM, and low-temperature nitrogen adsorption.

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Keywords

cerium dioxide, tin oxide, thermal stability, nanosystems

Use the reference below to cite the publication

Liberman E. Yu., Mikhailichenko A. I., Malysheva T. N., Kon?kova T. V., Kolesnikov V. A. Production and thermal stability of nanodisperse bicomponent materials in SnO2?СеO2 system. Steklo i keramika. 2017:90(9):18-21. (in Russ). UDK 661.865.5:66.097.5
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Lyudmila Vladimirovna Sokolova