Huimei Liu scite author profile

Semiconducting two-dimensional transition metal dichalcogenides are emerging as top candidates for post-silicon electronics. While most of them exhibit isotropic behaviour, lowering the lattice symmetry could induce anisotropic properties, which are both scientifically interesting and potentially useful. Here we present atomically thin rhenium disulfide (ReS2) flakes with unique distorted 1T structure, which exhibit in-plane anisotropic properties. We fabricated monolayer and few-layer ReS2 field-effect transistors, which exhibit competitive performance with large current on/off ratios (∼107) and low subthreshold swings (100 mV per decade). The observed anisotropic ratio along two principle axes reaches 3.1, which is the highest among all known two-dimensional semiconducting materials. Furthermore, we successfully demonstrated an integrated digital inverter with good performance by utilizing two ReS2 anisotropic field-effect transistors, suggesting the promising implementation of large-scale two-dimensional logic circuits. Our results underscore the unique properties of two-dimensional semiconducting materials with low crystal symmetry for future electronic applications.

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Gate-tunable negative longitudinal magnetoresistance in the predicted type-II Weyl semimetal WTe2

Wang

et al. 2016

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The progress in exploiting new electronic materials has been a major driving force in solid-state physics. As a new state of matter, a Weyl semimetal (WSM), in particular a type-II WSM, hosts Weyl fermions as emergent quasiparticles and may harbour novel electrical transport properties. Nevertheless, such a type-II WSM material has not been experimentally observed. In this work, by performing systematic magneto-transport studies on thin films of a predicted material candidate WTe2, we observe notable negative longitudinal magnetoresistance, which can be attributed to the chiral anomaly in WSM. This phenomenon also exhibits strong planar orientation dependence with the absence along the tungsten chains, consistent with the distinctive feature of a type-II WSM. By applying a gate voltage, we demonstrate that the Fermi energy can be in-situ tuned through the Weyl points via the electric field effect. Our results may open opportunities for implementing new electronic applications, such as field-effect chiral devices.

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Pseudospin exchange interactions ind7cobalt compounds: Possible realization of the Kitaev model

2018

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The current efforts to find the materials hosting Kitaev model physics have been focused on Mott insulators of d 5 pseudospin-1/2 ions Ir 4+ and Ru 3+ with t 5 2g (S = 1/2, L = 1) electronic configuration. Here we propose that the Kitaev model can be realized in materials based on d 7 ions with t 5 2g e 2 g (S = 3/2, L = 1) configuration such as Co 2+ , which also host the pseudospin-1/2 magnetism. Considering possible exchange processes, we have derived the d 7 pseudospin-1/2 interactions in 90 • bonding geometry. The obtained Hamiltonian comprises the bond-directional Kitaev K and isotropic Heisenberg J interactions as in the case of d 5 ions. However, we find that the presence of additional, spin-active eg electrons radically changes the balance between Kitaev and Heisenberg couplings. Most remarkably, we show that the exchange processes involving eg spins are highly sensitive to whether the system is in Mott (U < ∆) or charge-transfer (U > ∆) insulating regime. In the latter case, to which many cobalt compounds do actually belong, the antiferromagnetic Heisenberg coupling J is strongly suppressed and spin-liquid phase can be stabilized. The results suggest cobalt-based materials as promising candidates for the realization of the Kitaev model. arXiv:1710.10193v2 [cond-mat.str-el]

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Huimei Liu

Integrated digital inverters based on two-dimensional anisotropic ReS2 field-effect transistors

Gate-tunable negative longitudinal magnetoresistance in the predicted type-II Weyl semimetal WTe2

Pseudospin exchange interactions ind7cobalt compounds: Possible realization of the Kitaev model

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