Zahra Karimi scite author profile

Engineering the structure of metal-organic frameworks at the molecular level is of major interest for taking MOFs beyond their uses as bulk materials and creating multifunctional features with advanced applications. The notion involves directing MOF structure and controlling crystallization in terms of phase and orientation through interactions with directing agents. We have successfully used different concentrations of SBA-15 mesoporous silica for directed growth of the archetypal MOF-5 microcrystals along preferred crystallographic orientations, resulting in the production of interesting flower-like and nanorod frameworks instead of the conventional cubic structure. The results point to the possibility of using mesoporous silicas for designation of a wide range of MOF structural motifs with expedient performance and applications via selective interactions of MOF crystal building blocks with active functionalities on mesoporous surface, allowing heterogeneous seeding and controlled expansion of the framework along a preferred direction. The modifications in MOF structure have proven to improve the catalytic performance of MOF-silica nanocomposites up to 50% for Friedel-Crafts alkylation, compared to pure MOF-5. By discussing the effect of MOF texture on catalytic performance, this research aims to take MOF-5 beyond its bulk applications and opens up a new paradigm to design highly active and selective green heterogeneous catalysts based on MOFs.

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Zahra Karimi

Alginic acid: a highly efficient renewable and heterogeneous biopolymeric catalyst for one-pot synthesis of the Hantzsch 1,4-dihydropyridines

Alginic acid: A mild and renewable bifunctional heterogeneous biopolymeric organocatalyst for efficient and facile synthesis of polyhydroquinolines

Chitosan: An efficient biomacromolecule support for synergic catalyzing of Hantzsch esters by CuSO 4

Sodium alginate: An efficient biopolymeric catalyst for green synthesis of 2-amino-4H-pyran derivatives

Modulated formation of metal-organic frameworks by oriented growth over mesoporous silica

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