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Solvent-Dependent Assembly and Magnetic Relaxation Behaviors of [Cu<sub>4</sub>I<sub>3</sub>] Cluster-Based Lanthanide MOFs: Acting as Efficient Catalysts for Carbon Dioxide Conversion with Propargylic Alcohols

Zhi‐Lei Wu, Ai‐Ling Gu, Ning Gao, Hui‐Ya Cui, Wen‐Min Wang, Jian‐Zhong Cui

2020Inorganic Chemistry51 citationsDOI

Abstract

Two structurally similar metal–organic frameworks (MOFs) [Dy2Cu4I3(IN)7(DMF)2]·DMF (1) and [Dy2Cu4I3(IN)7(DMA)2]·DMA (2) (HIN = isonicotinic acid) feathering different coordinated solvent molecules were successfully isolated by tuning the types of solvents in the reaction system. Structural tests indicate that 1 and 2 are both built from 1D Dy(III) chains and copper iodide clusters [Cu4I3], generating into three-dimensional frameworks with an open 1D channel along the a axis. 1 and 2 display extensive and excellent solvent stability. Magnetic studies of 1 and 2 indicate that they exhibit interesting solvent-dependent magnetization dynamics. Importantly, 1 and 2 can act as highly effective catalysts for the carboxylic cyclization of propargyl alcohols with carbon dioxide (CO2) under ambient operating conditions. Additionally, the substrate scope was further explored over compound 1 based on the optimal conditions, and it exhibits efficient cyclic carboxylation of various terminal propargylic alcohols with CO2. This research offers an effective approach for the solvent-guided synthesis of MOFs materials and also presents the great application value of MOFs in CO2 chemical conversion.

Topics & Concepts

ChemistryLanthanideCluster (spacecraft)CatalysisMagnetic relaxationSolventCarbon dioxideInorganic chemistryRelaxation (psychology)Physical chemistryNanotechnologyOrganic chemistryMagnetic fieldMagnetizationIonProgramming languageSocial psychologyMaterials sciencePsychologyPhysicsComputer scienceQuantum mechanicsMetal-Organic Frameworks: Synthesis and ApplicationsCarbon dioxide utilization in catalysisCatalytic Processes in Materials Science