Litcius/Paper detail

Visible light-driven efficient palladium catalyst turnover in oxidative transformations within confined frameworks

Jiawei Li, Liuqing He, Qiong Liu, Yanwei Ren, Huanfeng Jiang

2022Nature Communications58 citationsDOIOpen Access PDF

Abstract

Abstract Palladium catalyst turnover by reoxidation of a low-valent Pd species dominates the proceeding of an efficient oxidative transformation, but the state-of-the-art catalysis approaches still have great challenges from the perspectives of high efficiency, atom-economy and environmental-friendliness. Herein, we report a new strategy for addressing Pd reoxidation problem by the fabrication of spatially proximate Ir III photocatalyst and Pd II catalyst into metal-organic framework (MOF), affording MOFs based Pd/photoredox catalysts UiO-67-Ir-PdX 2 (X = OAc, TFA), which are systematically evaluated using three representative Pd-catalyzed oxidation reactions. Owing to the stabilization of single-site Pd and Ir catalysts by MOFs framework as well as the proximity of them favoring fast electron transfer, UiO-67-Ir-PdX 2 , under visible light, exhibits up to 25 times of Pd catalyst turnover number than the existing catalysis systems. Mechanism investigations theoretically corroborate the capability of MOFs based Pd/photoredox catalysis to regulate the competitive processes of Pd 0 aggregation and reoxidation in Pd-catalyzed oxidation reactions.

Topics & Concepts

CatalysisPalladiumOxidative phosphorylationChemistryMaterials sciencePhotochemistryChemical engineeringBiochemistryEngineeringRadical Photochemical ReactionsElectrocatalysts for Energy ConversionCaching and Content Delivery