Emergent magnetism from lithium freezing in lithium-doped boron nitride

Abstract: The synthesis and characterization of Li-doped boron nitride is reported where the sample is in the dilute limit with a stoichiometry of Li 0.01 (BN) 3 . The diffusion of atomic Li dominates above 150 K, with D Li ∼ 10 −10 cm 2 s −1 , where the Li diffusion rate increases with temperature resulting in activated behavior with an energy scale of 27 meV. Below 150 K the Li diffusion freezes out and the sample enters a magnetic state at approximately 70 K that shows evidence for being glassy in nature. It is belie… Show more

“…Like a nonmagnetic surface with a Ti adatom on it becomes magnetic at the Ti sites, a nonmagnetic bulk can be expected to turn magnetic by adding specific dopants with a free-atom magnetic moment (17)(18)(19). Likewise, a 2D material gains magnetic moments that are induced by point defects (20)(21)(22)(23).…”

Activated layered magnetism from bulk TiN

“…Like a nonmagnetic surface with a Ti adatom on it becomes magnetic at the Ti sites, a nonmagnetic bulk can be expected to turn magnetic by adding specific dopants with a free-atom magnetic moment (17)(18)(19). Likewise, a 2D material gains magnetic moments that are induced by point defects (20)(21)(22)(23).…”

Activated layered magnetism from bulk TiN