Ultrathin Iron-Cobalt Oxide Nanosheets with Abundant Oxygen Vacancies for the Oxygen Evolution Reaction.
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TLDR
A facile solution reduction method using NaBH4 as a reductant is developed to prepare iron-cobalt oxide nanosheets (Fex Coy -ONSs) with a large specific surface area, ultrathin thickness, and, importantly, abundant oxygen vacancies that could improve electronic conductivity and facilitate adsorption of H2 O onto nearby Co3+ sites.Abstract:
Electrochemical water splitting is a promising method for storing light/electrical energy in the form of H2 fuel; however, it is limited by the sluggish anodic oxygen evolution reaction (OER). To improve the accessibility of H2 production, it is necessary to develop an efficient OER catalyst with large surface area, abundant active sites, and good stability, through a low-cost fabrication route. Herein, a facile solution reduction method using NaBH4 as a reductant is developed to prepare iron-cobalt oxide nanosheets (FexCoy-ONSs) with a large specific surface area (up to 261.1 m2 g−1), ultrathin thickness (1.2 nm), and, importantly, abundant oxygen vacancies. The mass activity of Fe1Co1-ONS measured at an overpotential of 350 mV reaches up to 54.9 A g−1, while its Tafel slope is 36.8 mV dec−1; both of which are superior to those of commercial RuO2, crystalline Fe1Co1-ONP, and most reported OER catalysts. The excellent OER catalytic activity of Fe1Co1-ONS can be attributed to its specific structure, e.g., ultrathin nanosheets that could facilitate mass diffusion/transport of OH− ions and provide more active sites for OER catalysis, and oxygen vacancies that could improve electronic conductivity and facilitate adsorption of H2O onto nearby Co3+ sites.read more
Citations
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Journal ArticleDOI
Cobalt-Doped Black TiO2 Nanotube Array as a Stable Anode for Oxygen Evolution and Electrochemical Wastewater Treatment
Yang Yang,Li Cheng Kao,Yuanyue Liu,Ke Sun,Hongtao Yu,Jinghua Guo,Jinghua Guo,Sofia Ya Hsuan Liou,Michael R. Hoffmann +8 more
TL;DR: It is shown that bulk oxygen vacancies (Ov) are the primary source of the enhanced conductivity of Co-Black, and cobalt doping both creates and stabilizes surficial oxygen vacancies, Ov, and thus prevents surface passivation.
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Mesoporous Iron-doped MoS2/CoMo2S4 Heterostructures through Organic–Metal Cooperative Interactions on Spherical Micelles for Electrochemical Water Splitting
Yanna Guo,Jing Tang,Joel Henzie,Bo Jiang,Wei Xia,Tao Chen,Yoshio Bando,Yong-Mook Kang,Md. Shahriar A. Hossain,Yoshiyuki Sugahara,Yusuke Yamauchi,Yusuke Yamauchi,Yusuke Yamauchi +12 more
TL;DR: In this article, mesoporous metal sulfide hybrid (meso-MoS2/CoMo2S4) materials via a soft-templating approach using diblock copolymer polystyrene-block poly(acrylic acid) micelles are reported.
Journal ArticleDOI
On the wrong assignment of the XPS O1s signal at 531–532 eV attributed to oxygen vacancies in photo- and electro-catalysts for water splitting and other materials applications
Hicham Idriss,Hicham Idriss +1 more
TL;DR: In this article, a large number of articles wrongly attributing, an XPS O1s signal at about 531-532 eV to oxygen vacancies are presented. But these studies are based on ex situ measurements of powder materials.
Journal ArticleDOI
Nanocomposites Based on CoSe2-Decorated FeSe2 Nanoparticles Supported on Reduced Graphene Oxide as High-Performance Electrocatalysts toward Oxygen Evolution Reaction.
TL;DR: It was demonstrated that the most optimal composite electrocatalysts release more Fe species into the electrolyte during the OER process, whereas the releasing of Co species is negligible.
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