Mesoporous and ultrathin arrays of cobalt nitride nanosheets for electrocatalytic oxygen evolution

Efficient electrocatalysts for oxygen evolution are vitally important for regenerative fuel cells and metal-air batteries. Herein, 3D mesoporous and ultrathin array of CoN nanosheets are synthesized on the Ni foam via thermal transformation of Co3O4 nanowire arrays. This array imparts enhanced activ...

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Published inElectrochemistry communications Vol. 98; pp. 87 - 91
Main Authors Liu, Chang, Bai, Gailing, Tong, Xili, Wang, Yunwei, Lv, Baoying, Yang, Nianjun, Guo, Xiang-Yun
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.01.2019
Elsevier
Subjects
CoN nanosheet
Electrocatalyst
Oxygen evolution reaction
CoN nanosheet
Electrocatalyst
Oxygen evolution reaction
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Abstract Efficient electrocatalysts for oxygen evolution are vitally important for regenerative fuel cells and metal-air batteries. Herein, 3D mesoporous and ultrathin array of CoN nanosheets are synthesized on the Ni foam via thermal transformation of Co3O4 nanowire arrays. This array imparts enhanced active sites, mass diffusion, and electron transfer towards oxygen evolution reaction. The low overpotential of 323 mV at 30 mA cm−2, a Tafel slope of 74 mV dec−1, and a high potential conservation in a long process of electrolysis process are achieved. It is thus one robust and efficient electrocatalyst for OER. [Display omitted] •Direct growth of mesoporous and ultrathin arrays of CoN nanosheets on Ni foam•Large specific surface areas of mesoporous and ultrathin array of CoN nanosheets•More available active sites of the CoN arrays for oxygen evolution reaction•Robust and efficient catalysts for oxygen evolution reaction, especially at high current densities
AbstractList Efficient electrocatalysts for oxygen evolution are vitally important for regenerative fuel cells and metal-air batteries. Herein, 3D mesoporous and ultrathin array of CoN nanosheets are synthesized on the Ni foam via thermal transformation of Co3O4 nanowire arrays. This array imparts enhanced active sites, mass diffusion, and electron transfer towards oxygen evolution reaction. The low overpotential of 323 mV at 30 mA cm−2, a Tafel slope of 74 mV dec−1, and a high potential conservation in a long process of electrolysis process are achieved. It is thus one robust and efficient electrocatalyst for OER. Keywords: CoN nanosheet, Oxygen evolution reaction, Electrocatalyst
Efficient electrocatalysts for oxygen evolution are vitally important for regenerative fuel cells and metal-air batteries. Herein, 3D mesoporous and ultrathin array of CoN nanosheets are synthesized on the Ni foam via thermal transformation of Co3O4 nanowire arrays. This array imparts enhanced active sites, mass diffusion, and electron transfer towards oxygen evolution reaction. The low overpotential of 323 mV at 30 mA cm−2, a Tafel slope of 74 mV dec−1, and a high potential conservation in a long process of electrolysis process are achieved. It is thus one robust and efficient electrocatalyst for OER. [Display omitted] •Direct growth of mesoporous and ultrathin arrays of CoN nanosheets on Ni foam•Large specific surface areas of mesoporous and ultrathin array of CoN nanosheets•More available active sites of the CoN arrays for oxygen evolution reaction•Robust and efficient catalysts for oxygen evolution reaction, especially at high current densities
Author Bai, Gailing
Yang, Nianjun
Lv, Baoying
Guo, Xiang-Yun
Tong, Xili
Wang, Yunwei
Liu, Chang
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Keywords CoN nanosheet
Electrocatalyst
Oxygen evolution reaction
Language English
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Snippet Efficient electrocatalysts for oxygen evolution are vitally important for regenerative fuel cells and metal-air batteries. Herein, 3D mesoporous and ultrathin...
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SubjectTerms CoN nanosheet
Electrocatalyst
Oxygen evolution reaction
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Title Mesoporous and ultrathin arrays of cobalt nitride nanosheets for electrocatalytic oxygen evolution
URI https://dx.doi.org/10.1016/j.elecom.2018.11.022
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