Pandey, J.K. (2018) Role of oxygen vacancy in cobalt doped ceria catalyst for styrene epoxidation using molecular oxygen. Molecular Catalysis, 451. pp. 238-246.

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Abstract

The oxygen vacancy formation and refillment of oxygen vacancy by molecular oxygen are the key steps of catalyst redox cycle towards styrene epoxidation reaction. Well dispersed, Isomorphically substituted and energetically favorable cobalt based redox cycle in ceria lattice caused lower oxygen formation energy, oxygen adsorption energy and activation energy than pure ceria for the reaction ensuring excellent catalytic activity. DFT studies show that inclusion of cobalt in ceria leads to lower the oxygen removal energy. Oxygen vacancy formation resulted into the rise of the spin magnetic moment of cobalt to 2.70 μB indicating reduction of Co+3 to Co+2 as well as fall of oxygen adsorption energy. A mechanistic proposal is presented in which Co3+/Co2+, Ce4+/Ce3+, oxygen vacancies are involved in adsorption, activation reaction of oxygen and styrene on the surface of the catalyst. The Co(4)-CeO2 catalyst also demonstrated reactivity towards stilbene, cyclooctene under similar reaction condition. The catalyst was regenerated up to three cycles.

Item Type: Article
Uncontrolled Keywords: Oxygen vacancy; Cobalt; Ceria; Styrene epoxidation
Subjects: Non Coal Ventilation, Fire Gallery and Metallurgy
Divisions: UNSPECIFIED
Depositing User: Mr. B. R. Panduranga
Date Deposited: 22 Nov 2018 05:25
Last Modified: 22 Nov 2018 05:25
URI: http://cimfr.csircentral.net/id/eprint/1951

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