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Article Abstract
The programmable design and construction of multirole or swing-role metal-organic frameworks (MR/SR-MOFs) for variable CO conversions are appealing for green and sustainable chemistry. Herein, we describe a facile MR/SR-MOF synthetic strategy for on-demand engineering of the catalytic pore spaces in a primitive MOF for diverse CO chemical fixation. Distinct functional groups can be precisely and quantitively immobilized into prototypical LIFM-28 (-LIFM-28) by virtue of postsynthesis based on its solid-state dynamic attribute, generating different catalytic pore spaces suitable for hydrosilylation, -methylation, cycloaddition, and cyclization reactions of CO. Remarkably, the resultant LIFM-DSL-3 carrying amino and CO-masked -heterocyclic carbene (NHC-CO) sites presents an excellent hydrosilylation performance with complete PhSiH conversion (>99%) and high silyl methoxide (SMO) selectivity (95%) under atmospheric CO pressure, achieving an extraordinary turnover number (TON) of 4367 and a turnover frequency (TOF) of 6221 h beneficial for efficient methanol release upon hydrolysis. Moreover, an exceptionally high -methylation efficiency is obtained for CO transformation via -methylation. This work demonstrates how to design MR/SR-MOFs as a multivariate catalytic platform for the cost-saving multirole and swing-role applications through on-demand manipulation and installation of active sites into a single MOF matrix without de novo synthesis.
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