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Tunable synthesis of furfurylamines or β-amino alcohols via Ru-catalyzed N–H functionalization using biomass-derived polyols

Le Jia, Xue Wang, Xiaolong Gao, Mohamed Makha, Xi‐Cun Wang, Yuehui Li

2022Green Synthesis and Catalysis12 citationsDOIOpen Access PDF

Abstract

We report the highly efficient conversion of readily available biomass-derived polyols with amines to valuable furfurylamines or β-amino alcohols compounds using ruthenium catalysis. The reaction outcome is readily tuned by the simple addition of 4 ​Å molecular sieves (furfurylamines vs. β-amino alcohols) with high chemo-selectivity. The proposed reaction mechanism involves ruthenium-catalyzed hydrogen borrowing for the reduction of the imine intermediate and C–C bond cleavage of polyols via a retro-aldol process. A series of arylamines was successfully transformed into the desired products with moderate to good yields.

Topics & Concepts

RutheniumChemistryCatalysisImineAldol reactionSelectivityOrganic chemistrySurface modificationBond cleavageCombinatorial chemistryAlcoholPhysical chemistryCatalysis for Biomass ConversionAsymmetric Hydrogenation and CatalysisCarbon dioxide utilization in catalysis
Tunable synthesis of furfurylamines or β-amino alcohols via Ru-catalyzed N–H functionalization using biomass-derived polyols | Litcius