Structural analysis of Cu/Zeolite with controlled Si/Al ratio and the resulting thermal stability

Cu-loaded zeolite (Cu/Zeolite or Cu/CHA) has been prepared from USY (SiO2/Al2O3 =30) through hydrothermal conversion using trimethyladamantylammonium ion (TMAda) as an organic structure directing agent. Simple control over the concentration of mineralizing agent in the hydrothermal synthesis from 0....

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Bibliographic Details
Published in:Catalysis today 2023-03, Vol.411-412, p.113866, Article 113866
Main Authors: Park, Jin Hee, Sin, Kyung Soo, Chang, Shuai, Park, Soon Hee, Cho, Sung June
Format: Article
Language:English
Subjects:
CHA
Cu/Zeolite
Hydrothermal stability
NOx
SCR
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Summary:Cu-loaded zeolite (Cu/Zeolite or Cu/CHA) has been prepared from USY (SiO2/Al2O3 =30) through hydrothermal conversion using trimethyladamantylammonium ion (TMAda) as an organic structure directing agent. Simple control over the concentration of mineralizing agent in the hydrothermal synthesis from 0.2 to 0.6 with respect to SiO2, changed the Si/Al ratio in the resulting zeolite, CHA with a decrease of overall yield. The result of 29Si NMR and 27Na spectrum of the synthesis gel and mother liquor suggested the zeolite formation through hydrothermal conversion did not occur when the monomeric Si species was increased significantly while TMAdaOH can lead to the formation of CHA similar to the synthesis of conventional silica source. Still, the textural properties and crystallographic structure of the obtained CHA have remained the same but the fraction of the strong acidity was increased significantly with the increase of the Si/Al ratio. High silica CHA shows superior hydrothermal stability in selective catalytic reduction of NOx, consistent with the result of lattice optimization using General Utility Lattice program (GULP) with the core-shell potential. Further, the results of the molecular dynamics simulation using Car-Parrinello method indicated the rapid migration of proton in CHA with a low Si/Al ratio while monovalent alkali metal ions stabilized near the double six membered rings, implying proton hopping can affect the stability of the zeolite. [Display omitted] •Effect of Al content in the framework of zeolite governed by NaOH concentration.•The balance between hydrothermal stability and catalytic performance should be made.•The event of bond breaking and proton hoping has been revealed.•Proton hopping is likely to accelerate zeolite deterioration.
ISSN:0920-5861
1873-4308
DOI:10.1016/j.cattod.2022.08.008