Hierarchical nano-sized ZnZr-Silicalite-1 multifunctional catalyst for selective conversion of ethanol to butadiene

Direct conversion of ethanol to butadiene (ETB) is a promising process for the production of renewable butadiene, but it still confronts great obstacles such as low butadiene selectivity and poor stability. Here, we report a hierarchical nano-sized ZnZr-Silicalite-1 multifunctional catalyst with high catalytic performance and stability in direct ETB process, and it was prepared by a facile one-pot crystallization process. The hierarchical nano-sized ZnZr-Silicalite-1 multifunctional catalyst achieved excellent butadiene selectivity of 61.4% and ethanol conversion of 89.8% at 350 degrees C and 0.38 h(-1). More importantly, it possessed superior stability compared to the previously reported catalyst systems. The effect of catalyst properties on catalytic performance were investigated using multiple characterized techniques. The results displayed that the ZnZr-Silicalite-1 catalyst possessed a hierarchical nano-sized structure, synergistic effects of various active centers, and suitably balanced acid-base properties. These properties realized excellent catalytic performance and stability for direct ETB conversion.

Automated summary

A hierarchical nano-sized ZnZr-Silicalite-1 multifunctional catalyst with high catalytic performance and stability was reported for direct conversion of ethanol to butadiene, achieving excellent selectivity and conversion rates. Prepared by a facile one-pot crystallization process, the catalyst exhibited superior stability and possessed a hierarchical nano-sized structure, synergistic effects of various active centers, and suitably balanced acid-base properties, enabling excellent catalytic performance for direct ETB conversion.