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Tunable Chirality-Dependent Nonlinear Electrical Responses in 2D Tellurium

Chang Niu, Gang Qiu, Yixiu Wang, Pukun Tan, Mingyi Wang, Jie Jian, Haiyan Wang, Wenzhuo Wu, Peide D. Ye

2023Nano Letters45 citationsDOI

Abstract

Tellurium (Te) is an elemental semiconductor with a simple chiral crystal structure. Te in a two-dimensional (2D) form synthesized by a solution-based method shows excellent electrical, optical, and thermal properties. In this work, the chirality of hydrothermally grown 2D Te is identified and analyzed by hot sulfuric acid etching and high-angle tilted high-resolution scanning transmission electron microscopy. The gate-tunable nonlinear electrical responses, including the nonreciprocal electrical transport in the longitudinal direction and the nonlinear planar Hall effect in the transverse direction, are observed in 2D Te under a magnetic field. Moreover, the nonlinear electrical responses have opposite signs in left- and right-handed 2D Te due to the opposite spin polarizations ensured by the chiral symmetry. The fundamental relationship between the spin-orbit coupling and the crystal symmetry in two enantiomers provides a viable platform for realizing chirality-based electronic devices by introducing the degree of freedom of chirality into electron transport.

Topics & Concepts

Chirality (physics)TelluriumNonlinear systemMaterials scienceChemical physicsNanotechnologyChemistryOptoelectronicsPhysicsChiral symmetryQuantum mechanicsQuarkMetallurgyNambu–Jona-Lasinio model2D Materials and ApplicationsPhase-change materials and chalcogenidesTopological Materials and Phenomena
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