6533b870fe1ef96bd12d0610
RESEARCH PRODUCT
A half-metallic half-Heusler alloy having the largest atomic-like magnetic moment at optimized lattice constant
Ru-wen PengL. DamewoodR. L. ZhangR. L. ZhangC. Y. FongLin H. YangClaudia Felsersubject
010302 applied physicsCondensed matter physicsMagnetic momentChemistryAlloyGeneral Physics and Astronomy02 engineering and technologyengineering.material021001 nanoscience & nanotechnologyAlkali metal01 natural scienceslcsh:QC1-999ElectronegativityMetalCondensed Matter::Materials ScienceLattice constantTransition metalGroup (periodic table)visual_art0103 physical sciencesengineeringvisual_art.visual_art_medium0210 nano-technologylcsh:Physicsdescription
For half-Heusler alloys, the general formula is XYZ, where X can be a transition or alkali metal element, Y is another transition metal element, typically Mn or Cr, and Z is a group IV element or a pnicitide. The atomic arrangements within a unit-cell show three configurations. Before this study, most of the predictions of half-metallic properties of half-Heusler alloys at the lattice constants differing from their optimized lattice constant. Based on the electropositivity of X and electronegativity of Z for half-Heusler alloys, we found that one of the configurations of LiCrS exhibits half-metallic properties at its optimized lattice constant of 5.803Å, and has the maximum atomic-like magnetic moment of 5μB. The challenges of its growth and the effects of the spin-orbit effect in this alloy will be discussed.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2016-11-01 | AIP Advances |