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. 2020 Oct;19(10):1074-1080.
doi: 10.1038/s41563-020-0753-1. Epub 2020 Aug 10.

Finned zeolite catalysts

Heng Dai #  1 Yufeng Shen #  1 Taimin Yang  2 Choongsze Lee  3 Donglong Fu  4 Ankur Agarwal  1 Thuy Thanh Le  1 Michael Tsapatsis  3   5 Jeremy C Palmer  1 Bert M Weckhuysen  4 Paul J Dauenhauer  3 Xiaodong Zou  2 Jeffrey D Rimer  6
Affiliations

Finned zeolite catalysts

Heng Dai et al. Nat Mater. 2020 Oct.

Abstract

There is growing evidence for the advantages of synthesizing nanosized zeolites with markedly reduced internal diffusion limitations for enhanced performances in catalysis and adsorption. Producing zeolite crystals with sizes less than 100 nm, however, is non-trivial, often requires the use of complex organics and typically results in a small product yield. Here we present an alternative, facile approach to enhance the mass-transport properties of zeolites by the epitaxial growth of fin-like protrusions on seed crystals. We validate this generalizable methodology on two common zeolites and confirm that fins are in crystallographic registry with the underlying seeds, and that secondary growth does not impede access to the micropores. Molecular modelling and time-resolved titration experiments of finned zeolites probe internal diffusion and reveal substantial improvements in mass transport, consistent with catalytic tests of a model reaction, which show that these structures behave as pseudo-nanocrystals with sizes commensurate to that of the fin. This approach could be extended to the rational synthesis of other zeolite and aluminosilicate materials.

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References

    1. Gallego, E. M. et al. ‘Ab initio’ synthesis of zeolites for preestablished catalytic reactions. Science 355, 1051–1054 (2017). - DOI
    1. Paolucci, C. et al. Dynamic multinuclear sites formed by mobilized copper ions in NOx selective catalytic reduction. Science 357, 898–903 (2017). - DOI
    1. Cychosz, K. A., Guillet-Nicolas, R., Garcia-Martinez, J. & Thommes, M. Recent advances in the textural characterization of hierarchically structured nanoporous materials. Chem. Soc. Rev. 46, 389–414 (2017). - DOI
    1. Varoon, K. et al. Dispersible exfoliated zeolite nanosheets and their application as a selective membrane. Science 333, 72–75 (2011). - DOI
    1. Rangnekar, N., Mittal, N., Elyassi, B., Caro, J. & Tsapatsis, M. Zeolite membranes—a review and comparison with MOFs. Chem. Soc. Rev. 44, 7128–7154 (2015). - DOI

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