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Literature DB >> 32285019

Architectural Stabilization of a Gold(III) Catalyst in Metal-Organic Frameworks.

John S Lee¹, Eugene A Kapustin^1,2,3, Xiaokun Pei^1,2,3, Sebastián Llopis¹, Omar M Yaghi^1,2,3,4,5, F Dean Toste^1,6.

Abstract

Unimolecular decomposition pathways are challenging to address in transition-metal catalysis and have previously not been suppressed via incorporation into a solid support. Two robust metal-organic frameworks (IRMOF-10 and bio-MOF-100) are used for the architectural stabilization of a structurally well-defined gold(III) catalyst. The inherent rigidity of these materials is utilized to preclude a unimolecular decomposition pathway - reductive elimination. Through this architectural stabilization strategy, decomposition of the incorporated gold(III) catalyst in the metal-organic frameworks is not observed; in contrast, the homogeneous analogue is prone to decomposition in solution. Stabilization of the catalyst in these metal-organic frameworks precludes leaching and enables recyclability, which is crucial for productive heterogeneous catalysis.

Entities: Chemical Disease Gene

Year: 2019 PMID： 32285019 PMCID： PMC7153757 DOI： 10.1016/j.chempr.2019.10.022

Source DB: PubMed Journal: Chem Impact factor: 22.804

24 in total

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