Friday, 13 May, 2016

Magnetic Properties of Restacked 2D Spin 1/2 honeycomb RuCl3 Nanosheets

Weber, D; Schoop, LM; Duppel, V; Lippmann, JM; Miss, J; Lotsch, BV -
Nano Letters, 10.1021/acs.nanolett.6b00701 (2016)

Spin 1/2 honeycomb materials have gained substantial interest due to their exotic magnetism and possible application in quantum computing. However, in all current materials out-of-plane interactions are interfering with the in plane order, hence a true 2D magnetic honeycomb system is still in demand. Here, we report the exfoliation of the magnetic semiconductor alpha-RuCl₃ into the first halide monolayers and the magnetic characterization of the spin 1/2 honeycomb arrangement of turbostratically stacked RuCl₃ monolayers. The exfoliation is based on a reductive lithiation/hydration approach, which gives rise to a loss of cooperative magnetism due to the disruption of the spin 1/2 state by electron injection into the layers. The restacked, macroscopic pellets of RuCl₃ layers lack symmetry along the stacking direction. After an oxidative treatment, cooperative magnetism similar to the bulk is restored. The oxidized pellets of restacked single layers feature a magnetic transition at T_N = 7 K if the field is aligned parallel to the ab-plane, while the magnetic properties differ from bulk alpha-RuCl₃ if the field is aligned perpendicular to the ab-plane. The deliberate introduction of turbostratic disorder to manipulate the magnetic properties of RuCl₃ is of interest for research in frustrated magnetism and complex magnetic order as predicted by the Kitaev-Heisenberg model.

Article on journal´s webpage