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Intermetallic Cu5Zr Clusters Anchored on Hierarchical Nanoporous Copper as Efficient Catalysts for Hydrogen Evolution Reaction.


ABSTRACT: Designing highly active and robust platinum-free electrocatalysts for hydrogen evolution reaction is vital for large-scale and efficient production of hydrogen through electrochemical water splitting. Here, we report nonprecious intermetallic Cu5Zr clusters that are in situ anchored on hierarchical nanoporous copper (NP Cu/Cu5Zr) for efficient hydrogen evolution in alkaline medium. By virtue of hydroxygenated zirconium atoms activating their nearby Cu-Cu bridge sites with appropriate hydrogen-binding energy, the Cu5Zr clusters have a high electrocatalytic activity toward the hydrogen evolution reaction. Associated with unique architecture featured with steady and bicontinuous nanoporous copper skeleton that facilitates electron transfer and electrolyte accessibility, the self-supported monolithic NP Cu/Cu5Zr electrodes boost violent hydrogen gas release, realizing ultrahigh current density of 500?mA?cm-2 at a low potential of -280?mV versus reversible hydrogen electrode, with exceptional stability in 1?M KOH solution. The electrochemical properties outperform those of state-of-the-art nonprecious metal electrocatalysts and make them promising candidates as electrodes in water splitting devices.

SUBMITTER: Shi H 

PROVIDER: S-EPMC7053377 | biostudies-literature | 2020

REPOSITORIES: biostudies-literature

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Intermetallic Cu<sub>5</sub>Zr Clusters Anchored on Hierarchical Nanoporous Copper as Efficient Catalysts for Hydrogen Evolution Reaction.

Shi Hang H   Zhou Yi-Tong YT   Yao Rui-Qi RQ   Wan Wu-Bin WB   Zhang Qing-Hua QH   Gu Lin L   Wen Zi Z   Lang Xing-You XY   Jiang Qing Q  

Research (Washington, D.C.) 20200220


Designing highly active and robust platinum-free electrocatalysts for hydrogen evolution reaction is vital for large-scale and efficient production of hydrogen through electrochemical water splitting. Here, we report nonprecious intermetallic Cu<sub>5</sub>Zr clusters that are in situ anchored on hierarchical nanoporous copper (NP Cu/Cu<sub>5</sub>Zr) for efficient hydrogen evolution in alkaline medium. By virtue of hydroxygenated zirconium atoms activating their nearby Cu-Cu bridge sites with a  ...[more]

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