Y. W. Li scite author profile

As an inorganic cousin of graphene, MoS2 monolayer has attracted considerable attention. However, a full understanding of its structure and stability is still lacking due to its dependence on experimental synthesis conditions. Using first-principle calculations combined with Boltzmann transport equation, we have extensively studied the geometry, energetics, electronic structure, optical absorption, and carrier mobility of various phases of MoS2. We have not only identified the stable phases of a MoS2 monolayer, but also clarified the specific conditions under which different phases are formed. The possible pathways for transitions among different phases are also discussed.

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Magnetic Weyl semimetal phase in a Kagomé crystal

Liu

Liang

Liu

et al. 2019

Science

695

387

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Weyl semimetals are crystalline solids that host emergent relativistic Weyl fermions and have characteristic surface Fermi-arcs in their electronic structure. Weyl semimetals with broken time reversal symmetry are difficult to identify unambiguously. In this work, using angle-resolved photoemission spectroscopy, we visualized the electronic structure of the ferromagnetic crystal Co3Sn2S2 and discovered its characteristic surface Fermi-arcs and linear bulk band dispersions across the Weyl points. These results establish Co3Sn2S2 as a magnetic Weyl semimetal that may serve as a platform for realizing phenomena such as chiral magnetic effects, unusually large anomalous Hall effect and quantum anomalous Hall effect.

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Signature for non-Stoner ferromagnetism in the van der Waals ferromagnet Fe3GeTe2

Duan

et al. 2020

Phys. Rev. B

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Observation of topological superconductivity in a stoichiometric transition metal dichalcogenide 2M-WS2

Zheng

Fang

et al. 2021

Nat Commun

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Topological superconductors (TSCs) are unconventional superconductors with bulk superconducting gap and in-gap Majorana states on the boundary that may be used as topological qubits for quantum computation. Despite their importance in both fundamental research and applications, natural TSCs are very rare. Here, combining state of the art synchrotron and laser-based angle-resolved photoemission spectroscopy, we investigated a stoichiometric transition metal dichalcogenide (TMD), 2M-WS2 with a superconducting transition temperature of 8.8 K (the highest among all TMDs in the natural form up to date) and observed distinctive topological surface states (TSSs). Furthermore, in the superconducting state, we found that the TSSs acquired a nodeless superconducting gap with similar magnitude as that of the bulk states. These discoveries not only evidence 2M-WS2 as an intrinsic TSC without the need of sensitive composition tuning or sophisticated heterostructures fabrication, but also provide an ideal platform for device applications thanks to its van der Waals layered structure.

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Y. W. Li

Structures and Phase Transition of a MoS₂ Monolayer

Magnetic Weyl semimetal phase in a Kagomé crystal

Signature for non-Stoner ferromagnetism in the van der Waals ferromagnet Fe3GeTe2

Observation of topological superconductivity in a stoichiometric transition metal dichalcogenide 2M-WS2

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Y. W. Li

Structures and Phase Transition of a MoS2 Monolayer

Magnetic Weyl semimetal phase in a Kagomé crystal

Signature for non-Stoner ferromagnetism in the van der Waals ferromagnet Fe3GeTe2

Observation of topological superconductivity in a stoichiometric transition metal dichalcogenide 2M-WS2

Contact Info

Product

Resources

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Structures and Phase Transition of a MoS₂ Monolayer