Tuning
Morphology of Nanostructured ZIF‑8 on Silica Microspheres and
Applications in Liquid Chromatography and Dye Degradation
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Abstract
Zeolitic imidazolate framework-8
(ZIF-8) is one type of metal–organic framework (MOF) with excellent
thermal and solvent stability and has been used extensively in separation,
catalysis, and gas storage. Supported ZIF-8 structures can offer additional
advantages beyond the MOF-only materials. Here, spheres-on-spheres
(SOS) silica microspheres are used as support for the nucleation and
growth of ZIF-8 nanocrystals. The surface functionalities (−SH,
−COOH, and −NH<sub>2</sub>) of silica and reaction conditions
are investigated for their effects on the ZIF-8 morphology. The use
of SOS microspheres results in the formation of highly crystalline
ZIF-8 nanostructured shell with varied sizes and shapes, ranging from
spherical to cubic and to needle crystals. The SOS@ZIF-8 microspheres
are packed into a column and utilized for separation of aromatic molecules
on the basis of π–π interaction in high-performance
liquid chromatography (HPLC). Furthermore, by thermal treatment in
air, ZIF-8 nanocrystals can be transformed into ZnO coating on SOS
silica microspheres. The SOS@ZnO microspheres show excellent photocatalytic
activity, as measured by degradation of methyl orange in water, when
compared to ZnO nanoparticles. This study has demonstrated the facile
way of using SOS microspheres to prepare core–shell microspheres
and their applications