“Domino” synthesis of bio-derived anethole over facile-prepared hafnium phosphonate frameworks with efficient bifunctional acid sites?
Reaction Chemistry & Engineering Pub Date: 2023-03-21 DOI: 10.1039/D3RE00096F
Abstract
Utilization of renewable biomass resources to transform them into value-added platform molecules has aroused widespread attention. Anethole (AN) is widely considered to be a significant chemical owing to its extensive application in food additives, daily necessities and pharmaceuticals. Therefore, reducing the dependence on natural fennel oil is a rational approach. We report a “green” and effective pattern of stereoselective conversion of biomass-derived 4′-methoxyphenylacetone (4-MOPP) into trans-AN. We employed a “domino” strategy of catalytic transfer hydrogenation and dehydration promoted by an interesting Lewis/Br?nsted bifunctional acid catalyst, which was developed by template-free self-assembly of Hf4+ and phenylphosphonic acid (PA) followed by grinding sulfonation. Importantly, by simply adjusting composite components, PA–Hf–SO3H (1.5?:?1) exhibited a favorable amorphous inorganic–organic structure with specific surface area (135.59 m2 g?1), affluent mesopores (4.01 nm), indispensable Lewis/Br?nsted acidic sites, as well as strong hydrophobicity and stability. The optimal reaction conditions were investigated by the single-factor method and response surface methodology; a high yield of 98.3% with excellent reusability was demonstrated. The corresponding kinetic and thermodynamic parameters were determined, and a feasible reaction mechanism proposed. Finally, the developed model showed a wide range of substrate versatility, thereby providing a promising catalytic strategy for the effective synthesis of AN or other high-value molecules.
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Journal Name:Reaction Chemistry & Engineering
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CAS no.: 89640-58-4
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