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In-situ fabrication of three-dimensional porous structure Mn-based catalytic filter for low-temperature NO reduction with NH3
•Fabrication of catalytic filter with 3D porous structure by an in-situ reaction .•Mn-Ce-SnOx/PPS catalytic filter shows 100% NO conversion from 120 to 180 oC.•The catalytic filter shows excellent supporting force and dispensability. A series of highly dispersed manganese-based catalysts coating on...
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| Published in: | Molecular catalysis 2021-09, Vol.514, p.111642, Article 111642 |
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| Main Authors: | , |
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| Language: | English |
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| cites | cdi_FETCH-LOGICAL-c230t-84f07d3b4714dbaecf47244de89d702b0fa14e026391d2c472f303f93ab9e8db3 |
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| container_start_page | 111642 |
| container_title | Molecular catalysis |
| container_volume | 514 |
| creator | Zheng, Weijie Zheng, Yuying |
| description | •Fabrication of catalytic filter with 3D porous structure by an in-situ reaction .•Mn-Ce-SnOx/PPS catalytic filter shows 100% NO conversion from 120 to 180 oC.•The catalytic filter shows excellent supporting force and dispensability.
A series of highly dispersed manganese-based catalysts coating on PPS were prepared using a novel in-situ synthesis method to enhance selective catalytic reduction of NOx with NH3 (NH3-SCR) performance. The changes of catalysts’ structure, morphology, and valence state were systematically researched to explore the formation mechanism of three-dimensional (3D) porous structure. The best ternary Mn-based catalytic filter (0.6 Mn-Ce-SnOx/PPS) displayed excellent catalyst performance, achieving 100% NO conversion at 120 °C and above 90% conversion in a wide temperature range 100 to 180 °C. It can be regarded as the most excellent low-temperature de-NOx catalytic filter identified so far. It may be due to the synergistic effect between tin and cerium ions, as well as the 3D porous structure, the weak crystallization, and high ratios of Mn4+/Mn3+, Ce 3+/(Ce3+ + Ce4+), and Oα/(Oα + Oβ).
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| doi_str_mv | 10.1016/j.mcat.2021.111642 |
| format | article |
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A series of highly dispersed manganese-based catalysts coating on PPS were prepared using a novel in-situ synthesis method to enhance selective catalytic reduction of NOx with NH3 (NH3-SCR) performance. The changes of catalysts’ structure, morphology, and valence state were systematically researched to explore the formation mechanism of three-dimensional (3D) porous structure. The best ternary Mn-based catalytic filter (0.6 Mn-Ce-SnOx/PPS) displayed excellent catalyst performance, achieving 100% NO conversion at 120 °C and above 90% conversion in a wide temperature range 100 to 180 °C. It can be regarded as the most excellent low-temperature de-NOx catalytic filter identified so far. It may be due to the synergistic effect between tin and cerium ions, as well as the 3D porous structure, the weak crystallization, and high ratios of Mn4+/Mn3+, Ce 3+/(Ce3+ + Ce4+), and Oα/(Oα + Oβ).
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A series of highly dispersed manganese-based catalysts coating on PPS were prepared using a novel in-situ synthesis method to enhance selective catalytic reduction of NOx with NH3 (NH3-SCR) performance. The changes of catalysts’ structure, morphology, and valence state were systematically researched to explore the formation mechanism of three-dimensional (3D) porous structure. The best ternary Mn-based catalytic filter (0.6 Mn-Ce-SnOx/PPS) displayed excellent catalyst performance, achieving 100% NO conversion at 120 °C and above 90% conversion in a wide temperature range 100 to 180 °C. It can be regarded as the most excellent low-temperature de-NOx catalytic filter identified so far. It may be due to the synergistic effect between tin and cerium ions, as well as the 3D porous structure, the weak crystallization, and high ratios of Mn4+/Mn3+, Ce 3+/(Ce3+ + Ce4+), and Oα/(Oα + Oβ).
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A series of highly dispersed manganese-based catalysts coating on PPS were prepared using a novel in-situ synthesis method to enhance selective catalytic reduction of NOx with NH3 (NH3-SCR) performance. The changes of catalysts’ structure, morphology, and valence state were systematically researched to explore the formation mechanism of three-dimensional (3D) porous structure. The best ternary Mn-based catalytic filter (0.6 Mn-Ce-SnOx/PPS) displayed excellent catalyst performance, achieving 100% NO conversion at 120 °C and above 90% conversion in a wide temperature range 100 to 180 °C. It can be regarded as the most excellent low-temperature de-NOx catalytic filter identified so far. It may be due to the synergistic effect between tin and cerium ions, as well as the 3D porous structure, the weak crystallization, and high ratios of Mn4+/Mn3+, Ce 3+/(Ce3+ + Ce4+), and Oα/(Oα + Oβ).
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| ispartof | Molecular catalysis, 2021-09, Vol.514, p.111642, Article 111642 |
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| source | ScienceDirect Freedom Collection 2022-2024 |
| subjects | In-situ synthesis NH3-SCR Synergistic effect Three-dimensional porous structure Weak crystallization |
| title | In-situ fabrication of three-dimensional porous structure Mn-based catalytic filter for low-temperature NO reduction with NH3 |
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