Abstract: Microporous, mesoporous, and new hybrid materials were studied in verbenol oxide isomerization for the synthesis of biologically active substance with antiParkinson activity. H-Si-MCM-41, H-Al-MCM-41, H-Al-MCM-48, H-Beta-25, and H-Beta-300 were compared with hybrid materials. The latter with a zeolite-like micromesoporous structure were characterized and evaluated for their catalytic activity for the first time. The approach of dual templating for synthesis of new materials was applied in this work to combine properties of Beta-zeolites and mesoporous cellular foams (MCF). The selectivity to the target product was the highest over microporous mild acidic H-Beta-300 and hybrid ZF-100, with also mild acidity and even absence of strong acid sites. Selectivity at 97 and 99% of conversion was 61 and 59% for H-Beta-300 and hybrid ZF-100, respectively.

Cite: Torozova A. , Maki-Arvela P. , Shcherban N.D. , Kumar N. , Aho A. , Stekrova M. , Valkaj K.M. , Sinitsyna P. , Filonenko S.M. , Yaremov P.S. , Ilyin V.G. , Volcho K.P. , Salakhutdinov N.F. , Murzin D.Y.
Effect of acidity and texture of micro-, mesoporous, and hybrid micromesoporous materials on the synthesis of paramenthanic diol exhibiting anti-Parkinson activity
Catalysis, Structure and Reactivity. 2015. V.1. N3. P.146-154. DOI: 10.1179/2055075815Y.0000000009 WOS Scopus OpenAlex

Dates:

Published print:	Jul 3, 2015
Published online:	Jan 7, 2016

Identifiers:

Web of science:	WOS:000433636700006
Scopus:	2-s2.0-84988453685
OpenAlex:	W2263166314

Citing:

DB	Citing
Web of science	9
Scopus	10
OpenAlex	6

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