A comparative study of the desilication of channel- and cage-like zeolites

Shahid A, Inayat A, Avadhut Y, Hartmann M, Schwieger W (2022)


Publication Type: Journal article

Publication year: 2022

Journal

Book Volume: 341

Article Number: 111903

DOI: 10.1016/j.micromeso.2022.111903

Abstract

Zeolites are very important catalysts in the chemical industry, but their intrinsic narrow micropore system often restricts the mass transport of reactant and product molecules. These mass transport limitations can be overcome by introducing a second larger pore system (meso-/macropores) into the zeolite crystals. Over the past decade, desilication of zeolites has emerged as a simple post-synthetic process to implement mesoporosity into zeolites. Here we present the investigation of the influence of framework topology on the formation of mesoporosity by the desilication process. For this purpose, the desilication behaviour of a channel-like system (ZSM-5/MFI-type) and a cage-like system (SSZ-13/CHA-type) are compared. It has been found that cage-like zeolite (SSZ-13) is more susceptible to the desilication process. The desilication of SSZ-13 zeolite resulted in drastic reduction of microporosity and crystallinity, while the microporosity and crystallinity of ZSM-5 gradually decreased with desilication time. By systematically studying the influence of various desilication parameters (e.g. treatment time, temperature and alkaline concentration), it has been found that there exists a direct correlation between the extraction of silicon and mesoporosity formation for the channel-like zeolite (ZSM-5) whereas in case of cage-like zeolite (SSZ-13) no direct correlation has been found.

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How to cite

APA:

Shahid, A., Inayat, A., Avadhut, Y., Hartmann, M., & Schwieger, W. (2022). A comparative study of the desilication of channel- and cage-like zeolites. Microporous and Mesoporous Materials, 341. https://doi.org/10.1016/j.micromeso.2022.111903

MLA:

Shahid, Ameen, et al. "A comparative study of the desilication of channel- and cage-like zeolites." Microporous and Mesoporous Materials 341 (2022).

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