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Paper detail

Gate Tunable Quantum Oscillations in Air-Stable and High Mobility Few-Layer Phosphorene Heterostructures

As the only non-carbon elemental layered allotrope, few-layer black phosphorus or phosphorene has emerged as a novel two-dimensional (2D) semiconductor with both high bulk mobility and a band gap. Here we report fabrication and transport measurements of phosphorene-hexagonal BN (hBN) heterostructures with one-dimensional (1D) edge contacts. These transistors are stable in ambient conditions for >300 hours, and display ambipolar behavior, a gate-dependent metal-insulator transition, and mobility up to 4000 $cm^2$/Vs. At low temperatures, we observe gate-tunable Shubnikov de Haas (SdH) magneto-oscillations and Zeeman splitting in magnetic field with an estimated g-factor ~2. The cyclotron mass of few-layer phosphorene holes is determined to increase from 0.25 to 0.31 $m_e$ as the Fermi level moves towards the valence band edge. Our results underscore the potential of few-layer phosphorene (FLP) as both a platform for novel 2D physics and an electronic material for semiconductor applications.

preprint2014arXivOpen access
Nathaniel GillgrenDarshana WickramaratneYanmeng ShiTim EspirituJiawei YangJin HuJiang WeiXue LiuZhiqiang MaoKenji WatanabeTakashi TaniguchiMarc BockrathYafis BarlasRoger K. LakeChun Ning Lau
cond-mat.mes-hall
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Nathaniel GillgrenDarshana WickramaratneYanmeng ShiTim EspirituJiawei YangJin HuJiang WeiXue LiuZhiqiang MaoKenji WatanabeTakashi TaniguchiMarc BockrathYafis BarlasRoger K. LakeChun Ning Lau

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