Effects of Surface Modification of Carbon Nanofibers on Their Electro- catalytic Activity for Hydrogen Evolution Reaction of Water Electrolysis

Ding, Dejun; Ma, Yong; Wang, Zhixing; Liu, Minghui; Zhang, Zhou; Zhang, Bowen

doi:10.6023/a15030195

Cited by 4 publications

(1 citation statement)

References 7 publications

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“…Recently, thermolysis of MOFs under certain atmosphere has been demonstrated as an efficient way to produce functional nanomaterials . Relative to previous reported 0D, 1D, and 2D catalysts, catalysts with 3D morphology can expose more active sites, leading to superior catalytic performance . So preparing 3D cobalt phosphide with superior conductivity for HER is highly desired.…”

Section: Introductionmentioning

confidence: 99%

In Situ Coupling of CoP Polyhedrons and Carbon Nanotubes as Highly Efficient Hydrogen Evolution Reaction Electrocatalyst

Yang

Dong

et al. 2017

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Hydrogen evolution reaction (HER) from water electrolysis is an attractive technique developed in recent years for cost-effective clean energy. Although considerable efforts have been paid to create efficient catalysts for HER, the development of an affordable HER catalyst with superior performance under mild conditions is still highly desired. In this work, metal-organic frameworks (MOFs)-templated strategy is proposed for in situ coupling of cobalt phosphide (CoP) polyhedrons nanoparticles and carbon nanotubes (CNTs). Due to the synergistic catalytic effect between CoP polyhedrons and CNTs, the as-prepared CoP-CNTs hybrids show excellent HER performance. The resultant CoP-CNTs demonstrate excellent HER activity in 0.5 m H SO with Tafel slope of 52 mV dec , small onset overpotential of ≈64 mV, and a low overpotential of ≈139 mV at 10 mA cm . Additionally, the catalyst also manifests superior durability in acid media. Considering the structure diversity of MOFs, the strategy presented here can be extended for synthesizing other well-defined metal phosphides-CNTs hybrids, which may be used in the fields of catalysis, energy conversion and storage.

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Section: Introductionmentioning

confidence: 99%

In Situ Coupling of CoP Polyhedrons and Carbon Nanotubes as Highly Efficient Hydrogen Evolution Reaction Electrocatalyst

Yang

Dong

et al. 2017

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224

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Nickel Phosphide Nanorod Arrays Vertically Grown on Ni Foam as High‐Efficiency Electrocatalyst for the Hydrogen Evolution Reaction

Dou

Liu

et al. 2017

Chin. J. Chem.

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An electrocatalyst of nickel phosphide (Ni 2 P) nanorod arrays vertically grown on Ni foam composite (NNFC) was prepared successfully using NaH 2 PO 2 as phosphorus source by means of a facile method of in situ phosphorization of Ni foam. The as-prepared NNFC exhibits excellent HER performance with an onset overpotential of 100 mV, a small Tafel slope of only 55 mV/dec, and a low overpotential involving 200 mV at a current density of 10 mA•cm 2 . Furthermore, the electrocatalyst was also demonstrated to possess high stability with a neglectable decrease in activity even after durability test for 25 h.

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Activity Origins in Nanocarbons for the Electrocatalytic Hydrogen Evolution Reaction

Zhang

Jia

Yan

et al. 2018

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Sustainable hydrogen production is an essential prerequisite for realizing the future hydrogen economy. The electrocatalytic hydrogen evolution reaction (HER), as the cornerstone of exploring the mechanism of water electrolysis, has attracted extensive interest in the past decades. Carbon-based materials with significant merits such as abundance, low cost, high conductivity, and tunable molecular structures, are considered as promising candidates for replacing the commercial noble metal electrocatalysts. To date, activity origins of these carbon-based electrocatalysts are mainly attributed to the dopants (e.g., N, B, P or S), whereas the contribution of intrinsic/induced carbon defects has recently been a hot research topic. In this Review, besides the development of heteroatoms doping strategies, the latest studies on defective carbon-based materials for HER electrocatalysis are summarized, especially for various approaches to prepare defective carbons and the detailed introduction regarding the defect catalysis mechanism. Finally, an outlook into the development of future defective carbon-based HER electrocatalysts is presented.

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Effects of Surface Modification of Carbon Nanofibers on Their Electro- catalytic Activity for Hydrogen Evolution Reaction of Water Electrolysis

Cited by 4 publications

References 7 publications

In Situ Coupling of CoP Polyhedrons and Carbon Nanotubes as Highly Efficient Hydrogen Evolution Reaction Electrocatalyst

In Situ Coupling of CoP Polyhedrons and Carbon Nanotubes as Highly Efficient Hydrogen Evolution Reaction Electrocatalyst

Nickel Phosphide Nanorod Arrays Vertically Grown on Ni Foam as High‐Efficiency Electrocatalyst for the Hydrogen Evolution Reaction

Activity Origins in Nanocarbons for the Electrocatalytic Hydrogen Evolution Reaction

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