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Excitonic instability and electronic properties of AlSb in the two-dimensional limit

Shan Dong, Yuanchang Li

2021Physical review. B./Physical review. B31 citationsDOIOpen Access PDF

Abstract

Motivated by the recent synthesis of two-dimensional monolayer AlSb, we theoretically investigate its ground-state and electronic properties using the first-principles calculations coupled with Bethe-Salpeter equation. An excitonic instability is revealed as a result of larger exciton binding energy than the corresponding one-electron energy gap by $\ensuremath{\sim}0.1$ eV, which is indicative of a many-body ground state accompanied by spontaneous exciton generation. Spin-orbit coupling is proven to play a vital role in the prediction of the ground state. At room temperature, the two-dimensional monolayer AlSb is expected to transform into a direct gap semiconductor with phonon-limited electron and hole mobilities both around 1700 ${\mathrm{cm}}^{2}/\mathrm{V}\phantom{\rule{0.16em}{0ex}}\mathrm{s}$. These results show that monolayer AlSb may provide a promising platform for realization of the excitonic insulator and for applications in the next-generation electronic devices.

Topics & Concepts

MonolayerExcitonCondensed matter physicsInstabilitySemiconductorCoupling (piping)Ground stateLimit (mathematics)ElectronPhysicsElectronic structureBand gapInsulator (electricity)Realization (probability)Materials scienceBiexcitonSemiconductor materialsEnergy (signal processing)Semiconductor Quantum Structures and DevicesQuantum and electron transport phenomena2D Materials and Applications
Excitonic instability and electronic properties of AlSb in the two-dimensional limit | Litcius