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Highly Dispersed Pd Clusters Anchored on Nanoporous Cellulose Microspheres as a Highly Efficient Catalyst for the Suzuki Coupling Reaction

Xianglin Pei, Yan Li, Lijun Lu, Huibin Jiao, Wei Gong, Lina Zhang

2021ACS Applied Materials & Interfaces40 citationsDOI

Abstract

With the depletion of nonrenewable resources such as oil/coal/gas, more and more research studies began to focus on the high-value utilization of residual biomass resources. Herein, for the first time, honeycomb nanoporous microspheres fabricated from renewable biomass resources of cellulose were used as a carrier to fabricate a highly dispersed palladium (Pd) nanocatalyst. Various physicochemical characterizations presented convincing pieces of evidence for the good dispersion of Pd clusters with a mean diameter of 1.6 nm. As the carrier, cellulose microspheres with an interconnected nanoporous structure contributed to the adhesion and dispersion of Pd particles, and their rich hydroxyl groups could fix the Pd particles. Importantly, the cellulose matrix could in situ induce the formation of metallic Pd(0) during calcination without a reductant. The cellulose/Pd catalyst was applied to the Suzuki coupling reaction, which exhibited promising catalytic activity compared to commercial Pd/C and unsupported homogeneous Pd(OAc)2 catalysts, as well as good stability. The utilization of the residual biomass resource to build catalyst materials would be important for the sustainable chemistry.

Topics & Concepts

NanoporousMaterials scienceCelluloseCatalysisCalcinationChemical engineeringDispersion (optics)NanocellulosePalladiumBiomass (ecology)Suzuki reactionNanotechnologyOrganic chemistryChemistryPhysicsEngineeringOpticsOceanographyGeologyNanomaterials for catalytic reactionsCatalytic Cross-Coupling ReactionsAdvanced Cellulose Research Studies
Highly Dispersed Pd Clusters Anchored on Nanoporous Cellulose Microspheres as a Highly Efficient Catalyst for the Suzuki Coupling Reaction | Litcius