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R11Ni4In9 (R=rare earth) compounds exhibit an unusual self-assembled nano/microfibrous morphology that results in anisotropic structural and magnetic behaviors. The existence of new compounds for R=Dy, Ho, Er, Tm and Lu, has been established (orthorhombic Nd11Pd4In9-type, oC48, Cmmm, Z=2), showing that the formation of these phases, previously known for R=La–Nd, Sm, Gd, Tb and Y, extends to all of...
We discovered a new compound MnCu 4 In with its own hexagonal structure type (hP12-P6 3 mc, ternary ordered derivative of the hexagonal MgZn 2 -type) that becomes ferromagnetic at T C =540K. This transition temperature is higher than that found in the MnCu 2 In and MnCu 2 Sn alloys. In contrast, the homologous compound MnCu 4 Sn, which crystallizes...
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