One‐Step Room‐Temperature Synthesis of Metal(IV) Carboxylate Metal—Organic Frameworks

Abstract Room‐temperature syntheses of metal–organic frameworks (MOFs) are of interest to meet the demand of the sustainable chemistry and are a pre‐requisite for the incorporation of functional compounds in water‐stable MOFs. However, only few routes under ambient conditions have been reported to produce metal(IV)‐based MOFs. Reported here is a new versatile one‐step synthesis of a series of highly porous M 6 ‐oxocluster‐based MOFs (M=Zr, Hf, Ce) at room temperature, including 8‐ or 12‐connected micro/mesoporous solids with different functionalized organic ligands. The compounds show varying degrees of defects, particularly for 12‐connected phases, while maintaining the chemical stability of the parent MOFs. Proposed here are first insights into in situ kinetics observations for efficient MOF preparation. Remarkably, the synthesis has a high space‐time yield and also provides the possibility to tune the particle size, therefore paving the way for their practical use.