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Au-activated N motifs in non-coherent cupric porphyrin metal organic frameworks for promoting and stabilizing ethylene production

Xulan Xie, Xiang Zhang, Miao Xie, Likun Xiong, Hao Sun, Yongtao Lu, Qiaoqiao Mu, Mark H. Rummeli, Jiabin Xu, Shuo Li, Jun Zhong, Zhao Deng, Bingyun Ma, Tao Cheng, William A. Goddard, Yang Peng

2022Nature Communications151 citationsDOIOpen Access PDF

Abstract

Abstract Direct implementation of metal-organic frameworks as the catalyst for CO 2 electroreduction has been challenging due to issues such as poor conductivity, stability, and limited > 2e − products. In this study, Au nanoneedles are impregnated into a cupric porphyrin-based metal-organic framework by exploiting ligand carboxylates as the Au 3+ -reducing agent, simultaneously cleaving the ligand-node linkage. Surprisingly, despite the lack of a coherent structure, the Au-inserted framework affords a superb ethylene selectivity up to 52.5% in Faradaic efficiency, ranking among the best for metal-organic frameworks reported in the literature. Through operando X-ray, infrared spectroscopies and density functional theory calculations, the enhanced ethylene selectivity is attributed to Au-activated nitrogen motifs in coordination with the Cu centers for C-C coupling at the metalloporphyrin sites. Furthermore, the Au-inserted catalyst demonstrates both improved structural and catalytic stability, ascribed to the altered charge conduction path that bypasses the incoherent framework. This study underlines the modulation of reticular metalloporphyrin structure by metal impregnation for steering the CO 2 reduction reaction pathway.

Topics & Concepts

EthyleneCatalysisMetal-organic frameworkSelectivityPorphyrinChemistryLigand (biochemistry)MetalPhotochemistryDensity functional theoryCombinatorial chemistryHeterogeneous catalysisElectrochemistryReticular connective tissueMaterials scienceInorganic chemistryChemical engineeringCoupling reactionFaraday efficiencyCoupling (piping)CO2 Reduction Techniques and CatalystsMetal-Organic Frameworks: Synthesis and ApplicationsCovalent Organic Framework Applications
Au-activated N motifs in non-coherent cupric porphyrin metal organic frameworks for promoting and stabilizing ethylene production | Litcius