Superior low-temperature NO catalytic performance of PrMn2O5 over SmMn2O5 mullite-type catalysts

Sampreetha Thampy; Nickolas Ashburn; Chengfa Liu; Ka Xiong; Sean Dillon; Yongping Zheng; Yves J. Chabal; Kyeongjae Cho; Julia W. P. Hsu

doi:10.1039/C9CY00490D

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Superior low-temperature NO catalytic performance of PrMn₂O₅ over SmMn₂O₅ mullite-type catalysts†

Sampreetha Thampy,^a Nickolas Ashburn,^a Chengfa Liu,^b Ka Xiong,^b Sean Dillon,^a Yongping Zheng,^a Yves J. Chabal,

^a Kyeongjae Cho

^a and Julia W. P. Hsu

*^a

Author affiliations

* Corresponding authors

^a Department of Materials Science & Engineering, University of Texas at Dallas, Richardson, Texas 75080, USA
E-mail: jwhsu@utdallas.edu

^b Dongguan Innovative New Materials Co. Ltd, Room 206, Building No.5, Incubation Park for Sci&Tech SMEs, Songshan Lake, Dongguan, Guangdong 523808, China

Abstract

By studying their surface chemistry, metal–oxygen bond strength, and critical energy barrier heights, we elucidate the differences in the NO oxidation catalytic performance of PrMn₂O₅ and SmMn₂O₅ mullite-type oxides. The 50% conversion temperature is lower (230 °C vs. 275 °C) and the maximum conversion efficiency is higher (81% at 282 °C vs. 68% at 314 °C) for PrMn₂O₅ compared to SmMn₂O₅, despite having a ∼15% lower specific surface area. Furthermore, PrMn₂O₅ exhibits higher maximum efficiency compared to Pt/Al₂O₃. Combined experimental and theoretical findings indicate that the superior catalytic performance of PrMn₂O₅ at low temperatures arises from the presence of more labile and reactive surface lattice oxygen due to weaker Mn–O bond strength and lower thermal stability of surface NO_x ad-species.

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Article information

DOI: https://doi.org/10.1039/C9CY00490D
Article type: Paper
Submitted: 11 Mar 2019
Accepted: 29 Apr 2019
First published: 30 Apr 2019

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Catal. Sci. Technol., 2019,9, 2758-2766

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Superior low-temperature NO catalytic performance of PrMn₂O₅ over SmMn₂O₅ mullite-type catalysts

S. Thampy, N. Ashburn, C. Liu, K. Xiong, S. Dillon, Y. Zheng, Y. J. Chabal, K. Cho and J. W. P. Hsu, Catal. Sci. Technol., 2019, 9, 2758 DOI: 10.1039/C9CY00490D

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