AI Article Synopsis
- Stacking order significantly influences the crystallographic and magnetic properties of van der Waals layered magnets, particularly in materials like antiferromagnetic MnPS.
- Recent studies indicate that even slight changes in thickness can lead to symmetry changes in few-layer crystals compared to the bulk material, which had not been clearly documented before.
- Using advanced microscopy and theoretical analysis, researchers found that local rippling can alter the symmetry in bilayer MnPS, enabling behaviors typical of monolayers while avoiding the need to reach monolayer thickness.
Article Abstract
Stacking order is expected to have a significant impact on the properties of van der Waals layered magnets, as it determines the crystallographic and magnetic symmetry. Recent synchrotron-based optical studies on antiferromagnetic MnPS have revealed a thickness-dependent symmetry crossover, suggesting possible different stackings in few-layer crystals from the bulk, which, however, has not been explicitly identified. Here, by using a combination of atomic-scale electron microscopy and theoretical calculations, we show that despite the bulk monoclinic stacking persists macroscopically down to bilayer, additional local rippling effect lifts the monoclinic symmetry of the few layers while preserving the trigonal symmetry of individual monolayers, leading to possible monolayer-like behavior in ultrathin MnPS samples. This finding reveals the profound impact of rippling on the microscopic symmetry of two-dimensional materials with weak interlayer interactions and raises the possibility of approaching the paradigmatic two-dimensional Néel antiferromagnetic honeycomb lattice in MnPS without reaching monolayer thickness.
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| http://dx.doi.org/10.1021/acsnano.2c04995 | DOI Listing |
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