Self‐Templated Formation of Pt@ZIF‐8/SiO 2 Composite with 3D‐Ordered Macropores and Size‐Selective Catalytic Properties

Metal–organic frameworks (MOFs) and related derivatives have attracted significant research attention due to their potential applications in a variety of fields. However, it remains challenging to fabricate MOF‐based composites into multidimensional structures, especially to endow them with ordered structures. Here, a facile strategy is developed for the preparation of Pt@ zeolitic imidazolate frameworks (ZIF)‐8/SiO 2 composite with 3D‐ordered macroporous (3DOM) structure (denoted as 3DOM‐Pt@ZIF‐8/SiO 2 ) by the in situ self‐templated transformation of Pt/ZnO/SiO 2 composite with 3DOM structure (denoted as 3DOM‐Pt/ZnO/SiO 2 ), which is prepared by a nanocasting method with face‐centered cubic (fcc) polystyrene spheres as the template. The sampling analysis at various crystallization times confirms the detailed dissolution–precipitation process from 3DOM‐Pt/ZnO/SiO 2 to 3DOM‐Pt@ZIF‐8/SiO 2 , in which Pt nanoparticles (NPs) are fully encapsulated into the 3DOM framework of ZIF‐8/SiO 2 by a continuous ZIF‐8 shell in the surface. Besides, it is found that choosing suitable volume ratio of N , N ‐dimethylformamide (DMF):H 2 O and SiO 2 content is crucial to induce the in situ nucleation and growth of continuous ZIF‐8 shell on the 3DOM structure and also to prevent the 3DOM structure from collapsing. Crucially, the obtained 3DOM‐Pt@ZIF‐8/SiO 2 shows high size‐selective catalytic properties for the hydrogenation of n ‐hexene and cis ‐cyclooctene due to the molecular sieve effect of ZIF‐8 shell on the framework.