Honghu Zou scite author profile

The noble metal free perovskite-type BaFeO3−x catalyst has been synthesized by a sol−gel method containing a small amount of spinel and carbonate. NO x is stored on both perovskite and carbonate, and the formed nitrate on the perovskite can be transferred to the neighboring carbonates to regenerate the storage sites on the perovskite. During the sulfation process, both perovskite and carbonate can be sulfated, and the sulfate species formed on the former one is more easily reduced. The poison of the perovskite catalyst is mainly due to the sulfation of the carbonate. The NO x storage capacity of the sulfated BaFeO3-950 catalyst, on which a trace amount of carbonate exists, drops only 14% comparing with the fresh catalyst. The iron atoms surrounding the barium atoms closely in the crystal lattice of the perovskite inhibit the sulfation of the barium, inducing a high sulfur tolerance.

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Effect of the calcination conditions on the NO storage behavior of the perovskite BaFeO3− catalysts

Xian

Zhang

et al. 2010

Catalysis Today

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Honghu Zou

De-NOx in alternative lean/rich atmospheres on La1−xSrxCoO3 perovskites

BaFeO_3−x Perovskite: An Efficient NO_x Absorber with a High Sulfur Tolerance

Effect of the calcination conditions on the NO storage behavior of the perovskite BaFeO3− catalysts

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Honghu Zou

De-NOx in alternative lean/rich atmospheres on La1−xSrxCoO3 perovskites

BaFeO3−x Perovskite: An Efficient NOx Absorber with a High Sulfur Tolerance

Effect of the calcination conditions on the NO storage behavior of the perovskite BaFeO3− catalysts

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Resources

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BaFeO_3−x Perovskite: An Efficient NO_x Absorber with a High Sulfur Tolerance