Metal Organic Frameworks Derived Catalysts for the Upgrading of Platform Chemicals

Biomass plays a significant role in replacing fossil resources, and catalytic transformation of platform chemicals to high-value chemicals is an effective approach to maximize the utilization of biomass. Among of which, efficient and durable catalysts are the heart for upgrading of these platform chemicals, and metal-organic frameworks (MOFs)-derived catalysts have attracted much attentions due to their suitable and versatile physicochemical properties. In this work, we present a short review on the applications of MOFs-derived catalysts in upgrading of platform chemicals. The design and synthetic strategies of MOFs-derived catalysts were summarized in detail, and their application in the catalytic upgrading of glycerol, ethanol, furanic compounds, levulinic acid and vanillin were addressed. The final section outlines the potential industrial applications of MOFs-derived catalysts for upgrading platform chemicals. Metal-organic frameworks (MOFs)-derived catalyst is a promising candidate for the upgrading of platform chemicals. This review summarizes the design and synthetic strategies of MOFs-derived catalysts and their application in the catalytic upgrading of glycerol, ethanol, furans, levulinic acid and vanillin. The potential industrial applications are also covered.image