Cascade Reactions Catalyzed by Metal Organic Frameworks

Cascade or tandem reactions where two or more individual reactions are carried out in one pot constitute a clear example of process intensification, targeting the maximization of spatial and temporal productivity with mobilization of minimum resources. In the case of catalytic reactions, cascade processes require bi‐/multifunctional catalysts that contain different classes of active sites. Herein, we show that the features and properties of metal–organic frameworks (MOFs) make these solids very appropriate materials for the development of catalysts for cascade reactions. Due to composition and structure, MOFs can incorporate different types of sites at the metal nodes, organic linkers, or at the empty internal pores, allowing the flexible design and synthesis of multifunctional catalysts. After some introductory sections on the relevance of cascade reactions from the point of view of competitiveness, sustainability, and environmental friendliness, the main part of the text provides a comprehensive review of the literature reporting the use of MOFs as heterogeneous catalysts for cascade reactions including those that combine in different ways acid/base, oxidation/reduction, and metal–organic centers. The final section summarizes the current state of the art, indicating that the development of a first commercial synthesis of a high‐added‐value fine chemical will be a crucial milestone in this area. One MOF—two opportunities: Metal–organic frameworks (MOFs) have attracted considerable attention in heterogeneous catalysis due to flexibility in synthesis, large porosity, and presence of active sites. The use of MOFs as solid catalysts is progressing fast and as result the number of papers reporting MOF catalysts for cascade, tandem, or domino processes in which two or more individual reactions are carried out simultaneously has increased considerably. Herein, the current state of the art is summarized.