Insight into tri-coordinated aluminum dependent catalytic properties of dealuminated Y zeolites in oxidative desulfurization

Aluminosilicate zeolite as a versatile material is of great importance for industrial catalysis, whose noumenal Bronsted and Lewis acid sites generally determine the activity, selectivity, and even stability during the catalytic reactions. Unlike well-studied Bronsted acid sites for acid-catalyzed reactions, the pending question about the effectiveness and role of Lewis acid sites derived from framework-associated and/or extra-framework aluminum in selective oxidation reactions remains unanswered. Herein, tri-coordinated Al was rationally constructed via precisely tailoring acid-treatment time for ultra-stable Y zeolite, which was associated with Lewis acidity. This Lewis acid sites rather than extra-framework related Lewis acid sites were confirmed to be the catalytic active sites for oxidative desulfurization with hydrogen peroxide as oxidant. Additionally, the Al evolution mechanism and physicochemical properties for dealumination-derived samples were systematically investigated via series of techniques. The most possible tri-coordinated Al micro-structure with Lewis acidity was verified by density functional theory calculations. More importantly, the superoxide and hydroxyl radical were both the active oxygen species during the catalytic reactions. This work discloses the decisive effectiveness of framework-associated Al species with Lewis acidity in zeolites to oxidative desulfurization and paves a straightforward way for rationally designing Lewis acidic Al-zeolite catalysts.

Automated summary

This study constructed tri-coordinated Al with Lewis acidity in ultra-stable Y zeolite by precisely tailoring acid-treatment time, demonstrating these Lewis acid sites as the catalytic active sites for oxidative desulfurization reactions. Systematic investigation was conducted to reveal the physicochemical properties and evolution mechanism of dealumination-derived samples, confirming the most possible tri-coordinated Al micro-structure with Lewis acidity.