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Homogeneously Mixing Different Metal–Organic Framework Structures in Single Nanocrystals through Forming Solid Solutions

Ming Xu, Shasha Meng, Peiyu Cai, Yu‐Hao Gu, Tongan Yan, Tian‐Hao Yan, Qinghua Zhang, Lin Gu, Dahuan Liu, Hong‐Cai Zhou, Zhi‐Yuan Gu

2022ACS Central Science39 citationsDOIOpen Access PDF

Abstract

Pore engineering plays a significant role in the applications of porous materials, especially in the area of separation and catalysis. Here, we demonstrated a metal-organic framework (MOF) solid solution (MOSS) strategy to homogeneously and controllably mix NU-1000 and NU-901 structures inside single MOF nanocrystals. The key for the homogeneous mixing and forming of MOSS was the bidentate modulator, which was designed to have a slightly longer distance between two carboxylate groups than the original tetratopic ligand. All of the MOSS nanocrystals showed a uniform pore size distribution with a well-tuned ratio of mesopores to micropores. Because of the appropriate pore ratio, MOSS nanocrystals can balance the thermodynamic interactions and kinetic diffusion of the substrates, thus showing exceedingly higher separation abilities and a unique elution sequence. Our work proposes a rational strategy to design mixed-porous MOFs with controlled pore ratios and provides a new direction to design homogeneously mixed MOFs with a high separation ability and unique separation selectivity.

Topics & Concepts

Materials scienceMesoporous materialNanocrystalPorosityRational designChemical engineeringMixing (physics)NanotechnologyPorous mediumLigand (biochemistry)SelectivityMetal-organic frameworkMetalNanostructureCatalysisChemistryAdsorptionPhysical chemistryOrganic chemistryMetallurgyEngineeringPhysicsComposite materialQuantum mechanicsBiochemistryReceptorMetal-Organic Frameworks: Synthesis and ApplicationsAdvanced Nanomaterials in CatalysisDendrimers and Hyperbranched Polymers