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Synthesis and Composition Study of Electrochemically Deposited Ni-P Coating with Increased Surface Area

Nickel phosphides NixPy are a promising family of binary compounds that have shown much promise in various fields of technology, including energy storage, light absorption and heterogeneous catalysis in the reactions of biomass hydrogenation. The performance of NixPy-containing materials depends gre...

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Published in:	Coatings (Basel) 2021-09, Vol.11 (9), p.1071
Main Authors:	Perevoznikov, Sergey S., Yakovlev, Ilya V., Tsybulskaya, Ludmila S., Lapina, Olga B.
Format:	Article
Language:	English
Subjects:	Composite materials Electrolytes Electromagnetic absorption Electroplating Energy storage Experiments High temperature Intermetallic compounds Magnetic fields Morphology Nanoparticles Nickel coatings Nitric acid NMR Nuclear magnetic resonance Phase composition Phosphides Phosphorus Phosphorus content Phosphorus oxides Sensors Spectrum analysis Surface area Synthesis
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creator	Perevoznikov, Sergey S. Yakovlev, Ilya V. Tsybulskaya, Ludmila S. Lapina, Olga B.
description	Nickel phosphides NixPy are a promising family of binary compounds that have shown much promise in various fields of technology, including energy storage, light absorption and heterogeneous catalysis in the reactions of biomass hydrogenation. The performance of NixPy-containing materials depends greatly on their morphology and phase composition and, in turn, on the synthesis technique. In this work, we have employed the electroplating approach to synthesize a Ni-P coating, which was treated with nitric acid in order to develop its surface area and enrich it with phosphorus. We have employed scanning electron microscopy, X-ray diffraction and 31P nuclear magnetic resonance techniques to characterize the particles separated from the coating with ultrasound for the convenience of the study. According to experimental data, the obtained powder contained a mixture of Ni3P and phosphorus oxides, which transformed into nickel phosphide phases richer with phosphorus, such as Ni5P2 and Ni12P5, after treatment at elevated temperatures. Thus, we have demonstrated that electroplating followed by acid treatment is a feasible approach for the synthesis of Ni-P coatings with increased surface area and variable phase composition.
doi_str_mv	10.3390/coatings11091071
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subjects	Composite materials Electrolytes Electromagnetic absorption Electroplating Energy storage Experiments High temperature Intermetallic compounds Magnetic fields Morphology Nanoparticles Nickel coatings Nitric acid NMR Nuclear magnetic resonance Phase composition Phosphides Phosphorus Phosphorus content Phosphorus oxides Sensors Spectrum analysis Surface area Synthesis
title	Synthesis and Composition Study of Electrochemically Deposited Ni-P Coating with Increased Surface Area
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