Abstract
Over the past decade, the development in the valorization of biomass technologies keeps increasing because the biomass utilization for manufacturing fine chemicals and fuels has diverse advantages over fossil feedstock. The review focuses on the utilization of metal–organic framework-derived (MOF-derived) materials as effective solid catalysts for the valorization of biomass into platform chemicals. MOFs compose of abundant organic ligands and metal cluster, and additional functional groups, could be modified on ligands (or metal clusters) serving as active sites. On the other hand, MOFs could also be converted into porous carbons or metal oxide composites by calcination at nitrogen or air, respectively, for catalytic reactions. These MOF-derived catalysts feature advantages like high specific surface area, porosity, and active sites from mother MOFs. More importantly, stronger interactions between guests (i.e., metal or alloy NPs) and hosts (i.e., MOF-derived carbons or metal oxides) make these catalysts...
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