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Rational Design of Ni‐Based Electrocatalysts by Modulation of Iron Ions and Carbon Nanotubes for Enhanced Oxygen Evolution Reaction

Rational Design of Ni‐Based Electrocatalysts by Modulation of Iron Ions and Carbon Nanotubes for... Although Ni‐based compounds perform well as oxygen evolution reaction (OER) catalysts, several challenges hinder their potential applications, namely, complicated synthesis and pyrolysis, poor conductivity, and poor stability. Herein, a facile large‐scale synthesis strategy is designed for unique Fe‐doped Ni‐based metal‐organic polymer@carbon nanotubes (CNTs) composites that may be used as OER electrocatalysts without further treatment. The Ni1.95Fe‐MOP@CNTs deliver a small overpotential of 256 mV to achieve a current density of 10 mA cm−2, and their Tafel slope is low to 58 mV dec−1. In addition, the catalyst displays high durability after a long‐term test of 60 000 s. Introducing Fe ions and CNTs into Ni‐based compounds increases the surface area and enhances the degree of graphitization and the composite conductivity, contributing to the excellent catalytic performance. The charge transfer reaction dynamics are explored using in situ differential electrochemical mass spectrometry. Surprisingly, the Ni1.95Fe‐MOP@CNTs demonstrate a Faraday efficiency of (≈92.7%) for O2 production. These findings pave a new way for synthesizing catalysts without post‐processing for water oxidation. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Advanced Sustainable Systems Wiley

Rational Design of Ni‐Based Electrocatalysts by Modulation of Iron Ions and Carbon Nanotubes for Enhanced Oxygen Evolution Reaction

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References (43)

Publisher
Wiley
Copyright
© 2020 Wiley‐VCH GmbH
eISSN
2366-7486
DOI
10.1002/adsu.202000227
Publisher site
See Article on Publisher Site

Abstract

Although Ni‐based compounds perform well as oxygen evolution reaction (OER) catalysts, several challenges hinder their potential applications, namely, complicated synthesis and pyrolysis, poor conductivity, and poor stability. Herein, a facile large‐scale synthesis strategy is designed for unique Fe‐doped Ni‐based metal‐organic polymer@carbon nanotubes (CNTs) composites that may be used as OER electrocatalysts without further treatment. The Ni1.95Fe‐MOP@CNTs deliver a small overpotential of 256 mV to achieve a current density of 10 mA cm−2, and their Tafel slope is low to 58 mV dec−1. In addition, the catalyst displays high durability after a long‐term test of 60 000 s. Introducing Fe ions and CNTs into Ni‐based compounds increases the surface area and enhances the degree of graphitization and the composite conductivity, contributing to the excellent catalytic performance. The charge transfer reaction dynamics are explored using in situ differential electrochemical mass spectrometry. Surprisingly, the Ni1.95Fe‐MOP@CNTs demonstrate a Faraday efficiency of (≈92.7%) for O2 production. These findings pave a new way for synthesizing catalysts without post‐processing for water oxidation.

Journal

Advanced Sustainable SystemsWiley

Published: Dec 1, 2020

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