ХІМІЯ, ФІЗИКА ТА ТЕХНОЛОГІЯ ПОВЕРХНІ

ISSN 2518-1238 (Online), ISSN 2079-1704 (Print)

Показано наявність компенсаційного ефекту на нанесених та масивних Cu-Co-Fe оксидних каталізаторах реакції окиснення СО. На основі даних про стан поверхні, одержаних методом термопрограмованої десорбції з мас-спектрометричним аналізом (ТПД МС), запропоновано пояснення компенсаційного ефекту.

Kemball C. The reaction of methane and deuterium on evaporated nickel catalysts // Proc. Roy. Soc. London, A. – 1951. – V. 207. – P. 539–554.

Yatsimirsky V.K. The interrelationship between energy and entropy as a possible cause of the compensation effect // Theor. Exp. chem. – 1977. – V. 12, N 4. – P. 443‑446.

Kiperman S.L. Introduction to Kinetics of Heterogeneous Catalytic Reactions. – Мoscow: Nauka, 1964. – 607 p. (in Russian).

Galwey A.K. Compensation effect in heterogeneous catalysis // Adv. Catal. – 1977. – V. 26. – P. 247–307.

Morooka Y., Ozaki, A. Regularities in catalytic properties of metal oxides in propylene oxidation // J. Catal. – 1966. – V.5, N 1. – P. 116–124.

Golodets G.I., Goncharuk V.V., Roiter V.A. "Compensation effect" in heterogeneous catalysis.// Theor. Exp. Chem. – 1972. – V. 5, N 2. – P. 132–137.

Yatsimirsky V.K., Ischenko E.V., Boldyreva N.A. et al. Catalytic activity in CO oxidation and adsorption characteristics of Fe–Co oxide system // Theor. Exp. Chem. – 2001.–V. 37, N 5. – P. 315–318.

Yatsimirsky V.K., Boldyreva N.A., Ischenko E.V. et al. State of the surface of Cu-Co oxide system in the reaction of CO oxidation // Bulletin of Donetsk University. A. Natural sciences. – 2002. – N 2. – P. 242–246. (in Ukrainian).

Yatsimirsky V.K., Ischenko E.V., Philippova L.V. Kinetics of CO oxidation over Fe-Cu oxide samples // Bulletin of Kyiv University, Chemistry. – 2003. – V. 40. – P. 81–83. (in Ukrainian).

Yatsimirsky V.K., Ischenko E.V., Mischanchuk B.G., Philippova L.V. Catalytic activity and state of the surface of Fe-Mn oxide system in the reaction of CO oxidation // Ukrainian Chemical Journal. – 2003. – V. 69, N 7. – P. 15–18. (in Ukrainian).

Yatsimirsky V.K., Ischenko E.V., Gayday S.V. State of the surface of Fe-Co-Cu oxide system in the reaction of CO oxidation // Ukrainian Chemistry Journal. – 2003. – V. 69, N 4. – P. 98–100. (in Ukrainian).

Yatsimirsky V.K., Maksimov Yu.V., Suzdalev I.P. et al. Physical and chemical properties and activity of Fe–Co–Cu oxide catalysts in oxidation of CO // Theor. Exp. Chem.–2003. – V. 39, N 3. – P. 190–194.

Yatsimirsky V.K., Ischenko E.V., Gayday S.V., Tsapjuk G.G. Kinetic peculiarities of CO oxidation over oxide Fe-Co-Cu catalyst and Co2O3 // Reports of NAS of Ukraine. – 2003. – N 9. – P. 156–160. (in Ukrainian).

Ischenko E.V., Matzui L.Yu., Gayday S.V. et al. Thermo-exfoliated graphite containing CuO/Cu2(OH)3NO3:(Co2+/Fe3+) composites: preparation, characterization and catalytic performance in CO conversion // Materials. – 2010. – N 3. – P. 572–584.

Ischenko E.V., Byeda A.А., Diyuk V.E. et al. Activated carbon, modified by maleic anhydride, as a support for the oxide catalysts of CO oxidation // Ukrainian Chemical Journal. – 2009. – V. 75, N 5, – P. 23–25. (in Ukrainian).

Yatsimirsky V.K., Ischenko E.V., Gayday S.V. et al. Oxide Cu-Co-Fe catalysts supported on the oxidized FAC in the reaction of CO oxidation // Ukrainian Chemical Journal. – 2009. – V. 75, N 6. – P. 91–94. (in Ukrainian).

Ischenko E.V., Dyachenko A.G., Yatsimirsky A.V. et al. SiO2 as a support for oxide Cu-Co-Fe catalysts of CO oxidation reaction // Ukrainian Chemical Journal. – 2008. – V. 74, N 4. – P. 85–87. (in Ukrainian).

Ischenko E.V., Sylenko P.M., Shkoda T.М. et al. Oxide Cu-Co-Fe catalyst of CO oxidation supported on silicon carbide nanofibers // Chemistry, Physics and Technology of Surface. – 2009. – N 15. – P. 279–283.

Ischenko E.V., Sylenko P.M., Zakharova Т.М. et al. Cu2(OH)3NO3 supported on SiC as active catalyst of CO oxidation // Catalysis and Oil Chemistry. – 2009. – N 17. – P. 18–21. (in Ukrainian).

Ischenko E.V., Yatsimirsky V.K., Dyache­nko A.G. et al. Cu-Co-Fe oxide catalysts supported on carbon nanotubes for the oxidation of CO // Theor.Exp. Chem. – 2006. – v. 42, N 4.– P. 229-233.

Ischenko E.V., Yatsimirsky V.K., Dyachen­ko A.G. et al. Cu-Co-Fe oxide catalysts supported on carbon nanotubes in the reaction of CO oxidation // Polish Journal of Chemistry. – 2008. – V. 82. – P. 291–297.

Ischenko E.V., Yatsimirsky V.K., Byeda A.А. et al Ternary Cu-Co-Fe oxide catalysts of carbon monoxide oxidation supported on carbon nanotubes // Modern problems of Physical Chemistry: IV Intern. Conf. (31 Aug. – 03 Sept., 2009,. – P. 79. Donetsk, Ukraine)

Byeda A.А., Ischenko E.V., Gayday S.V. Application of mass spectrometric studies for determination of the surface state of heterogeneous catalysts // Bulletin of Kyiv University, Chemistry. – 2008. – V. 49. – P. 48–52. (in Ukrainian).

Krylov О.V., Kiselev V.F. Adsorption and catalysis over transition metals and their oxides. Moscow: Khimia, 1981.– 423 p. (in Russian).