Catalytic performances of perovskite oxides for CO oxidation under microwave irradiation

Hisahiro Einaga; Yusaku Nasu; Manabu Oda; Hikaru Saito

doi:10.1016/j.cej.2015.07.051

Catalytic performances of perovskite oxides for CO oxidation under microwave irradiation

Hisahiro Einaga, Yusaku Nasu, Manabu Oda, Hikaru Saito

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Abstract

Microwave-assisted heterogeneous catalytic oxidation of CO over ABO₃ type perovskite oxides (A: La; B: Mn, Fe, Co) was carried out and the factors controlling the catalytic properties were investigated. The heating behavior of perovskite oxides depended on the physical state of catalyst particles and catalyst compositions. Catalytic activity of the perovskite oxide decreased in the order of LaCoO₃>LaMnO₃>LaFeO₃ under conventional heating, although LaMnO₃ exhibited similar activity to LaCoO₃ under microwave heating. The partial substitution of A site cation La by Sr enhanced the heating and catalytic properties under microwave heating conditions. Catalytic properties of the perovskite oxides under microwave heating were compared with those under conventional external heating.

Original language	English
Pages (from-to)	97-104
Number of pages	8
Journal	Chemical Engineering Journal
Volume	283
DOIs	https://doi.org/10.1016/j.cej.2015.07.051
Publication status	Published - Jan 1 2016

All Science Journal Classification (ASJC) codes

Chemistry(all)
Environmental Chemistry
Chemical Engineering(all)
Industrial and Manufacturing Engineering

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10.1016/j.cej.2015.07.051

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title = "Catalytic performances of perovskite oxides for CO oxidation under microwave irradiation",

abstract = "Microwave-assisted heterogeneous catalytic oxidation of CO over ABO3 type perovskite oxides (A: La; B: Mn, Fe, Co) was carried out and the factors controlling the catalytic properties were investigated. The heating behavior of perovskite oxides depended on the physical state of catalyst particles and catalyst compositions. Catalytic activity of the perovskite oxide decreased in the order of LaCoO3>LaMnO3>LaFeO3 under conventional heating, although LaMnO3 exhibited similar activity to LaCoO3 under microwave heating. The partial substitution of A site cation La by Sr enhanced the heating and catalytic properties under microwave heating conditions. Catalytic properties of the perovskite oxides under microwave heating were compared with those under conventional external heating.",

author = "Hisahiro Einaga and Yusaku Nasu and Manabu Oda and Hikaru Saito",

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AU - Einaga, Hisahiro

AU - Nasu, Yusaku

AU - Oda, Manabu

AU - Saito, Hikaru

N1 - Funding Information: This work was financially supported by Environmental Technology Development Fund from the Ministry of the Environment, Government of Japan . Publisher Copyright: © 2015 Elsevier B.V.

PY - 2016/1/1

Y1 - 2016/1/1

N2 - Microwave-assisted heterogeneous catalytic oxidation of CO over ABO3 type perovskite oxides (A: La; B: Mn, Fe, Co) was carried out and the factors controlling the catalytic properties were investigated. The heating behavior of perovskite oxides depended on the physical state of catalyst particles and catalyst compositions. Catalytic activity of the perovskite oxide decreased in the order of LaCoO3>LaMnO3>LaFeO3 under conventional heating, although LaMnO3 exhibited similar activity to LaCoO3 under microwave heating. The partial substitution of A site cation La by Sr enhanced the heating and catalytic properties under microwave heating conditions. Catalytic properties of the perovskite oxides under microwave heating were compared with those under conventional external heating.

AB - Microwave-assisted heterogeneous catalytic oxidation of CO over ABO3 type perovskite oxides (A: La; B: Mn, Fe, Co) was carried out and the factors controlling the catalytic properties were investigated. The heating behavior of perovskite oxides depended on the physical state of catalyst particles and catalyst compositions. Catalytic activity of the perovskite oxide decreased in the order of LaCoO3>LaMnO3>LaFeO3 under conventional heating, although LaMnO3 exhibited similar activity to LaCoO3 under microwave heating. The partial substitution of A site cation La by Sr enhanced the heating and catalytic properties under microwave heating conditions. Catalytic properties of the perovskite oxides under microwave heating were compared with those under conventional external heating.

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Catalytic performances of perovskite oxides for CO oxidation under microwave irradiation

Abstract

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