1. Experimental and computational investigation of a green Knoevenagel condensation catalyzed by zeolitic imidazolate framework-8.
- Author
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Anh Tran, Vy, Nhu Quynh, Le Thi, Thi Vo, Thu-Thao, Nguyen, Phuc An, Don, Ta Ngoc, Vasseghian, Yasser, Phan, Hung, and Lee, Sang-Wha
- Subjects
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DENSITY functional theory , *CATALYTIC activity , *CONDENSATION , *SURFACES (Technology) , *SURFACE area - Abstract
ZIF-8 is a highly porous, stable, and abundant surface area material that can be used as an environmentally friendly catalyst for Knoevenagel condensations. The effects of the ratio of the reactants (benzaldehyde (BA):ethyl cyanoacetate (ECA)), reaction temperature, and catalyst concentration were systematically investigated using a ZIF-8 catalyst and water as the solvent. ZIF-8 (3–5 wt%) showed excellent catalytic performance with an almost complete conversion of BA in less than 6 h with a BA:ECA molar ratio of 1:2 at different temperatures. At 60 °C, the BA conversion rate and product selectivity of the reaction reached their highest values after 4 h with a BA:ECA molar ratio of 1:1. When employing 5.0 wt% ZIF-8, almost complete BA conversion was achieved after 3 h at room temperature. ZIF-8 also demonstrated good recyclability with almost no change in its catalytic activity over five cycles. The proposed reaction mechanism is based on the catalytic activity of the basic N sites on the surface of ZIF-8, and is supported by density functional theory calculations. The present approach provides a promising strategy for the construction of simple and environmentally friendly ZIF-8 catalysts. • The catalyst ZIF-8 was used for Knoevenagel condensations. • The effects of the reactants, temperature, and catalyst concentration were investigated. • Good recyclability of catalytic activity showed over five cycles. • The reaction mechanism was supported by density functional theory calculations. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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