4.8 Article

Promoting Syngas to Olefins with Isolated Internal Silanols-Enriched Al-IDM-1 Aluminosilicate Nanosheets

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WILEY-V C H VERLAG GMBH
DOI: 10.1002/anie.202313785

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IDM-1 Zeolite; Internal Silanol; Olefins; Syngas Conversion

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Selective conversion of syngas to value-added olefins is a topic of significant research interest. The combination of the pentasil zeolite Al-IDM-1 with ZnaAlbOx oxide shows high selectivity and ratios, making it a promising catalyst for the production of propylene and butene.
Selective conversion of syngas to value-added olefins has attracted considerable research interest. Regulating product distribution remains challenging, such as achieving higher olefin selectivity, propylene/ethylene (P/E) and olefin/paraffin (O/P) ratios. A new pentasil zeolite Al-IDM-1 with recently approved -ION structure, composed of 17-membered-ring (MR) extra-large lobed pores and intersected 10-MR medium pores, shows a C-2-6(=) selectivity up to 85 % and a high O/P value of 14 in the conversion of syngas when being combined with ZnaAlbOx oxide. Moreover, for the high-silica Al-IDM-1 with Si/Al ratio of 400, the selectivity of propylene and butene accounts for 88 % in C-2-4(=), resulting in high P/E (>4) and butene/ethylene (B/E >3) ratios. The high C-3-4(=) selectivity is contributed by two main reasons, that is, the relatively weak acidity of Al-IDM-1 zeolite enhances the olefin-based cycle revealed by the probe reactions of methanol-to-propylene (MTP) and 1-hexene cracking, and the rich isolated internal SiOH groups in Al-IDM-1 promote the desorption of C-3-4(=), once they are formed inside zeolite pores.

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