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The effects of vacancy and oxidation on black phosphorus nanoresonators

机译:空位和氧化对黑磷纳米瘤的影响

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摘要

Black phosphorene (BP) is not stable at ambient conditions, so atomic defects and oxidation effects are unavoidable in BP samples in the experiment. The effects of these defects on the performance of the BP nanoresonators are still unclear. Here, we perform classical molecular dynamics to investigate the effects of the vacancy and oxidation on single-layer BP nanoresonators at different temperatures. We find that the vacancy causes a strong reduction in the quality factor of the nanoresonators, while the oxidation has a weaker effect on the nanoresonators. More specifically, a 2% concentration of randomly distributed single vacancies is able to reduce the quality factor by about 80% and 40% at 4.2 K and 50 K, respectively. We also find that the quality factor of the nanoresonators is not sensitive to the distribution pattern of the vacancy defects.
机译:黑色磷烯(BP)在环境条件下不稳定,因此在实验中的BP样品中是不可避免的原子缺陷和氧化效果。 这些缺陷对BP纳米组的性能的影响尚不清楚。 在这里,我们进行经典的分子动力学,以研究不同温度下单层BP纳米组的空位和氧化的影响。 我们发现空位导致纳米腔器的质量因子强烈降低,而氧化对纳米腔有较弱的作用。 更具体地,2%的随机分布单个空位能够分别以4.2k和50k降低90%和40%的质量因数。 我们还发现,纳米管的质量因子对空位缺陷的分布模式不敏感。

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