On understanding the sequential post-synthetic microwave-assisted dealumination and alkaline treatment of Y zeolite

Systematic investigation was performed to understand the change of physiochemical properties in Y zeolite after the microwave (MW)-assisted dealumination (using mineral acid, HCl, and chelating agent, EDTA4−) and the subsequent alkaline treatment (of the dealuminated zeolites). The findings show tha...

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Bibliographic Details
Published in:Microporous and mesoporous materials 2022-03, Vol.333, p.111736, Article 111736
Main Authors: Zhang, Rongxin, Zou, Run, Li, Wei, Chang, Yabin, Fan, Xiaolei
Format: Article
Language:English
Subjects:
Dealumination
Microwave (MW)
NMR
Post-synthetic treatment
Y zeolite
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Summary:Systematic investigation was performed to understand the change of physiochemical properties in Y zeolite after the microwave (MW)-assisted dealumination (using mineral acid, HCl, and chelating agent, EDTA4−) and the subsequent alkaline treatment (of the dealuminated zeolites). The findings show that the combination of EDTA4− and hydrogen ions was effective to achieve dealumination of zeolite Y under MW irradiation, which formed complexed framework Al, instead of extra-framework Al (EFAl), to be extracted readily by the sequential alkaline treatment for mesopore formation. Conversely, under the same MW condition, the use of HCl encouraged the formation of EFAl species in the defective Y framework, which did not benefit the mesopore formation. The disclose of the distinct dealumination mechanisms of the MW-assisted method using different agents can benefit the further development of effective MW methods for dealumination of zeolites and/or making mesoporous zeolites. [Display omitted] •EDTA can remove framework Al quickly and selectively under MW irradiation.•H+ plays an important role in the MW-assisted chelation dealumination of zeolite Y.•HCl under MW irradiation promotes extra framework Al formation and structure collapse.•alkaline treatment after dealumination recovers crystalline framework and creates mesoporosity.
ISSN:1387-1811
1873-3093
DOI:10.1016/j.micromeso.2022.111736