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Literature DB >> 25894854

Significant Promotion Effect of Mo Additive on a Novel Ce-Zr Mixed Oxide Catalyst for the Selective Catalytic Reduction of NO(x) with NH3.

Shipeng Ding¹, Fudong Liu¹, Xiaoyan Shi¹, Kuo Liu¹, Zhihua Lian¹, Lijuan Xie¹, Hong He¹.

Abstract

A novel Mo-promoted Ce-Zr mixed oxide catalyst prepared by a homogeneous precipitation method was used for the selective catalytic reduction (SCR) of NO(x) with NH3. The optimal catalyst showed high NH3-SCR activity, SO2/H2O durability, and thermal stability under test conditions. The addition of Mo inhibited growth of the CeO2 particle size, improved the redox ability, and increased the amount of surface acidity, especially the Lewis acidity, all of which were favorable for the excellent NH3-SCR performance. It is believed that the catalyst is promising for the removal of NO(x) from diesel engine exhaust.

Entities: Chemical

Keywords: Ce−Zr mixed oxide; diesel engine exhaust; nitrogen oxides; selective catalytic reduction; thermal stability

Year: 2015 PMID： 25894854 DOI： 10.1021/acsami.5b00636

Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN： 1944-8244 Impact factor: 9.229

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Cited

6 in total

6. Tailored Alkali Resistance of DeNO_x Catalysts by Improving Redox Properties and Activating Adsorbed Reactive Species.

Authors: Mehak Nawaz Khan; Lupeng Han; Penglu Wang; Dengsong Zhang
Journal: iScience Date: 2020-05-18

6 in total

Significant Promotion Effect of Mo Additive on a Novel Ce-Zr Mixed Oxide Catalyst for the Selective Catalytic Reduction of NO(x) with NH3.

1. Efficient NH₃-SCR removal of NO_x with highly ordered mesoporous WO₃(χ)-CeO₂ at low temperatures.

2. Sulfur resistance of Ce-Mn/TiO₂ catalysts for low-temperature NH₃-SCR.

3. Optimized Design Method for Pt/SiO₂-Al₂O₃ with High NH₃-SCO Activity and Thermal Stability.

4. Novel CeMo _x O _y -clay hybrid catalysts with layered structure for selective catalytic reduction of NO _x by NH₃.

5. Efficient reduction of nitric oxide using zirconium phosphide powders synthesized by elemental combination method.

6. Tailored Alkali Resistance of DeNO_x Catalysts by Improving Redox Properties and Activating Adsorbed Reactive Species.

Significant Promotion Effect of Mo Additive on a Novel Ce-Zr Mixed Oxide Catalyst for the Selective Catalytic Reduction of NO(x) with NH3.

1. Efficient NH3-SCR removal of NOx with highly ordered mesoporous WO3(χ)-CeO2 at low temperatures.

2. Sulfur resistance of Ce-Mn/TiO2 catalysts for low-temperature NH3-SCR.

3. Optimized Design Method for Pt/SiO2-Al2O3 with High NH3-SCO Activity and Thermal Stability.

4. Novel CeMo x O y -clay hybrid catalysts with layered structure for selective catalytic reduction of NO x by NH3.

5. Efficient reduction of nitric oxide using zirconium phosphide powders synthesized by elemental combination method.

6. Tailored Alkali Resistance of DeNOx Catalysts by Improving Redox Properties and Activating Adsorbed Reactive Species.

1. Efficient NH₃-SCR removal of NO_x with highly ordered mesoporous WO₃(χ)-CeO₂ at low temperatures.

2. Sulfur resistance of Ce-Mn/TiO₂ catalysts for low-temperature NH₃-SCR.

3. Optimized Design Method for Pt/SiO₂-Al₂O₃ with High NH₃-SCO Activity and Thermal Stability.

4. Novel CeMo _x O _y -clay hybrid catalysts with layered structure for selective catalytic reduction of NO _x by NH₃.

6. Tailored Alkali Resistance of DeNO_x Catalysts by Improving Redox Properties and Activating Adsorbed Reactive Species.