Ultrahigh Mass Activity for Carbon Dioxide Reduction Enabled by Gold-Iron Core-Shell Nanoparticles

Overview

Journal J Am Chem Soc

Publisher American Chemical Society

Specialty Chemistry

Date 2017 Oct 10

PMID 28990777

Citations 10

Authors

Kun Sun

Tao Cheng

Lina Wu

Yongfeng Hu

Jigang Zhou

Aimee Maclennan

Zhaohua Jiang

Yunzhi Gao

William A Goddard 3rd

Zhijiang Wang

Affiliations

Soon will be listed here.

Abstract

Wide application of carbon dioxide (CO) electrochemical energy storage requires catalysts with high mass activity. Alloy catalysts can achieve superior performance to single metals while reducing the cost by finely tuning the composition and morphology. We used in silico quantum mechanics rapid screening to identify Au-Fe as a candidate improving CO reduction and then synthesized and tested it experimentally. The synthesized Au-Fe alloy catalyst evolves quickly into a stable Au-Fe core-shell nanoparticle (AuFe-CSNP) after leaching out surface Fe. This AuFe-CSNP exhibits exclusive CO selectivity, long-term stability, nearly a 100-fold increase in mass activity toward CO reduction compared with Au NP, and 0.2 V lower in overpotential. Calculations show that surface defects due to Fe leaching contribute significantly to decrease the overpotential.

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