NiCoP nanoparticle-decorated carbon nanosheet arrays assembled on nickel nanowires for volumetric energy-dense supercapacitors

“…3d). 45 Furthermore, due to the slight oxidation, the signal at 133.8 eV might be attributed to the phosphate species. 46 FE-SEM and TEM were used to observe the morphology of the synthesized electrode materials at various magnifications.…”

Section: Resultsmentioning

confidence: 99%

Self -templated construction of hollow trimetallic MnNiCoP yolk–shell spheres assembled with nanosheets as a satisfactory positive electrode material for hybrid supercapacitors

Shirvani

Davarani

2023

Nanoscale

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“…This strategy achieves high-purity hydrogen separation without a proton exchange membrane. Among the energy storage materials for Faraday supercapacitors, NiCoP, a binary metal phosphide, has attracted increasing attention due to its superior charge transfer ability and capacitance compared with metal oxides and single metal phosphide. , As a non-noble metal electrode, NiCoP is relatively cheap, and it can have a large capacitance at a low active material loading. In addition, it can still maintain a high capacitance after many cycles of charge–discharge.…”

Section: Introductionmentioning

confidence: 99%

Key Role of NiCoP Arrays as an Electron Reservoir in a Membrane-Free Electrochemical Reactor for Energy-Saving Hydrogen Recovery and Ammonia Decomposition

Wang

Zhang

et al. 2023

ACS EST Water

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In this study, we developed a membrane-free electrochemical reactor by directionally regulating the electron storage release of the NiCoP array electron reservoir, which realized high-efficiency removal of ammonia and simultaneous hydrogen purification. In the ammonia removal cell, indirect oxidation based on electrocatalytic chlorine evolution achieved effective removal of ammonia, while electrons were stored by the NiCoP array auxiliary electrode in the oxidation state at the cathode. In the hydrogen production cell, the electrons released from NiCoP arrays in the reduction state were obtained at the cathode to produce hydrogen with a purity of nearly 100% and a Faraday efficiency of 90.8%. The reactor maintained stable operation during 30 cycles of reversing the position of the two auxiliary electrodes, which was owing to the excellent circulating electron storage release ability of NiCoP arrays. Our proof-of-concept reactor provides a new development idea for energy recovery from wastewater.

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Comparative studies of nanosheet-based supercapacitors: A review of advances in electrodes materials

Behzadi pour,

Fekri aval,

Kianfar

2024

Case Studies in Chemical and Environmental Engineering

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NiCoP nanoparticle-decorated carbon nanosheet arrays assembled on nickel nanowires for volumetric energy-dense supercapacitors

Abstract: Transitional metal phosphide NixCoyP has been considered a promising capacitor electrode material due to its high specific capacity. However, the inferior electronic conductivity and structure instability of NixCoyP severely restrict...

Cited by 8 publications

References 71 publications

Self -templated construction of hollow trimetallic MnNiCoP yolk–shell spheres assembled with nanosheets as a satisfactory positive electrode material for hybrid supercapacitors

Self -templated construction of hollow trimetallic MnNiCoP yolk–shell spheres assembled with nanosheets as a satisfactory positive electrode material for hybrid supercapacitors

Key Role of NiCoP Arrays as an Electron Reservoir in a Membrane-Free Electrochemical Reactor for Energy-Saving Hydrogen Recovery and Ammonia Decomposition

Comparative studies of nanosheet-based supercapacitors: A review of advances in electrodes materials

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