Evolution of the Structure and Magnetic Properties of Ni@C Composite Nanoparticles upon Annealing

Evolution of the Structure and Magnetic Properties of Ni@C Composite Nanoparticles upon Annealing

— Nanopowders Ni@C synthesized by gas condensation have a core-shell structure. The size of the core is 2–10 nm and the thickness of the shell is 1–3 nm. The changes in the magnetic properties and the structure of these particles upon annealing in the 100–1100°C temperature range are investigated in...

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Veröffentlicht in:Physics of metals and metallography 2019-03, Vol.120 (3), p.228-232
Hauptverfasser: Uimin, M. A., Novikov, S. I., Konev, A. S., Byzov, I. V., Yermakov, A. Ye, Minin, A. S., Privalova, D. V., Gaviko, V. S., Shchegoleva, N. N.
Format: Artikel
Sprache:eng
Schlagworte:
Analysis
Annealing
Carbon
Chemistry and Materials Science
Containers
Core-shell structure
Corrosion resistance
Electrical and Magnetic Properties
High temperature
Magnetic properties
Materials Science
Metallic Materials
Nanoparticles
Nickel
Nickel (Metal)
Organic chemistry
Shell stability
Shells
Solid solutions
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Zusammenfassung:— Nanopowders Ni@C synthesized by gas condensation have a core-shell structure. The size of the core is 2–10 nm and the thickness of the shell is 1–3 nm. The changes in the magnetic properties and the structure of these particles upon annealing in the 100–1100°C temperature range are investigated in this work. Analysis of changes in the magnetic properties, the structure, and the chemical stability shows that the core of the particles in the initial state after synthesis is a supersaturated solid solution of carbon in nickel, which decomposes into nickel and carbon upon high-temperature annealing. Rather slow cooling of nickel particles causes the carbon shell to form. The shell ensures their chemical stability.
ISSN:0031-918X
1555-6190
DOI:10.1134/S0031918X19030141