Title :
Development of Novel Compounds in Co-Sb System by High Pressure Synthesis
Author :
Matsushita, Itsuki ; Kamegawa, Atsunori ; Okada, Masayuki ; Sugimoto, Satoshi
Author_Institution :
Dept. of Mater. Sci., Tohoku Univ., Sendai, Japan
Abstract :
High-pressure synthesis has been widely used for exploration of novel materials. In this study, new compounds in a Co-Sb system have been successfully synthesized under GPa-order by using a cubic-anvil-type apparatus. Crystal structures, thermal stabilities, magnetic properties of novel compounds were investigated. Two novel compounds with monoclinic and triclinic structures were synthesized at 1373 K under 6 Gpa. A space group of the monoclinic phase was P2/m (No. 10) and its lattice parameters were a=0.37612(3) nm, b=0.37970(5) nm, c=0.37806(6) nm, α=90.842(8)°. A crystal structure of new triclinic phase was similar to β-phase ( Co100-xSbx, x=48-51). A space group of the triclinic phase was P-1 (No. 2) and its lattice parameter was a=0.40409(4) nm, b=0.40432(4) nm, c=0.52351(4) nm, α=90.163(9)°, β=90.005(10)°, γ=120.210(8)°.
Keywords :
antimony alloys; cobalt alloys; crystal structure; high-pressure effects; lattice constants; magnetisation; permanent magnets; thermal stability; Co100-xSbx; crystal structures; cubic-anvil-type apparatus; high-pressure synthesis; lattice parameters; magnetic properties; monoclinic structures; pressure 6 GPa; space group; temperature 1373 K; thermal stabilities; triclinic structures; Compounds; Crystals; Lattices; Saturation magnetization; Thermal stability; X-ray scattering; Co-Sb system; high-pressure synthesis;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2013.2272799
