AI Article Synopsis
- Two-dimensional transition metal dichalcogenides (TMDCs) exhibit non-magnetic properties which hinder their use in spintronics, but doping with rhenium (Re) and applying tensile strain can alter their magnetic characteristics.
- Research shows that different phases of Re-doped TMDCs (specifically 1H and 1Td structures) can develop magnetism under specific tensile strains, with 1H-Re0.5Mo0.5S2 achieving a peak magnetic moment at 6% strain.
- The findings suggest that manipulating tensile strain is a promising approach to control magnetism in doped TMDCs, potentially opening avenues for advancements in spintronics.
Article Abstract
Two-dimensional transition metal dichalcogenides (TMDCs) are promising in spintronics due to their spin-orbit coupling, but their intrinsic non-magnetic properties limit their further development. Here, we focus on the energy landscapes of TMDC (MX2, M = Mo, W and X = S, Se, Te) monolayers by rhenium (Re) substitution doping under axial strains, which controllably drive 1H ↔ 1Td structural transformations. For both 1H and 1Td phases without strain, Re-doped TMDCs have an n-type character and are non-magnetic, but the tensile strain could effectively induce and modulate the magnetism. Specifically, 1H-Re0.5Mo0.5S2 gets a maximum magnetic moment of 0.69 μB at a 6% uniaxial tensile strain along the armchair direction; along the zigzag direction it exhibits a significant magnetic moment (0.49 μB) at a 2.04% uniaxial tensile strain but then exhibits no magnetism in the range of [5.10%, 7.14%]. By contrast, for 1Td-Re0.5Mo0.5S2 a critical uniaxial tensile strain along the zigzag direction reaches up to ∼9.18%, and a smaller uniaxial tensile strain (∼5.10%) along the zigzag direction is needed to induce the magnetism in 1Td-Re0.5M0.5Te2. The results reveal that the magnetism of Re-doped TMDCs could be effectively induced and modulated by the tensile strain, suggesting that strain engineering could have significant applications in doped TMDCs.
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| http://dx.doi.org/10.1039/d1cp00640a | DOI Listing |
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