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Self-driven Ru-modified NiFe MOF nanosheet as multifunctional electrocatalyst for boosting water and urea electrolysis. | LitMetric

Self-driven Ru-modified NiFe MOF nanosheet as multifunctional electrocatalyst for boosting water and urea electrolysis.

J Colloid Interface Sci

College of Chemistry, Chemical Engineering and Materials Science, Soochow University, Suzhou 215123, PR China. Electronic address:

Published: January 2022

AI Article Synopsis

  • Urea electro-oxidation reaction (UOR) is being researched as an alternative to the oxygen evolution reaction (OER) for efficient hydrogen production through urea-mediated water splitting.
  • The study introduces a novel 3D Ru-modified NiFe metal-organic framework (MOF) nanoflake array, designed to enhance catalyst performance by optimizing adsorption of intermediate species and increasing active Ni species through electronic reconstruction.
  • The optimized catalyst (Ru-NiFe-③/NF) shows impressive efficiency, requiring significantly lower voltages for hydrogen production and urea-assisted electrolysis compared to traditional methods, making it a promising solution for sustainable energy and sewage treatment.

Article Abstract

Urea electro-oxidation reaction (UOR) has been a promising strategy to replace oxygen evolution reaction (OER) by urea-mediated water splitting for hydrogen production. Naturally, rational design of high-efficiency and multifunctional electrocatalyst towards UOR and hydrogen evolution reaction (HER) is of vital significance, but still a grand challenge. Herein, an innovative 3D Ru-modified NiFe metal-organic framework (MOF) nanoflake array on Ni foam (Ru-NiFe-x/NF) was elaborately designed via spontaneous galvanic replacement reaction (GRR). Notably, the adsorption capability of intermediate species (H*) of catalyst is significantly optimized by Ru modification. Meanwhile, rich high-valence Ni active species can be acquired by self-driven electronic reconstruction in the interface, then dramatically accelerating the electrolysis of water and urea. Remarkably, the optimized Ru-NiFe-③/NF (1.6 at% of Ru) only requires the overpotential of 90 and 310 mV to attain 100 mA cm toward HER and OER in alkaline electrolyte, respectively. Impressively, an ultralow voltage of 1.47 V is required for Ru-NiFe-③/NF to deliver a current density of 100 mA cm in urea-assisted electrolysis cell with superior stability, which is 190 mV lower than that of Pt/C-NF||RuO/NF couple. This work is desired to explore a facile way to exploit environmentally-friendly energy by coupling hydrogen evolution with urea-rich sewage disposal.

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Source
http://dx.doi.org/10.1016/j.jcis.2021.07.124DOI Listing

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