Ambient molecule effects on the electronic transport of pyrene-1,8-dithiol molecular junction

Jun Bi, Ran Liu, Huan Fu, Feng Sun, Zong-Liang Li
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Abstract

Due to the small size, single-molecule device may be sensitive to the ambient molecules. Thus, it is significant for fabricating single-molecule sensors to understand the influence of ambient molecule on molecular device. Based on the ab initio calculations combined with non-equilibrium Green's function method, the adsorption effects of H2O, CO2 and NO2 molecule on the pyrene-1,8-dithiol molecular junctions are studied systematically. The numerical results show that, the influence of H2O or CO2 molecule on the pyrene-1,8-dithiol molecular junction is very slight when they are adsorbed on the pyrene-1,8-dithiol molecules, which attributes to the closed-shell ground states of these two molecules. Different from H2O and CO2 molecule, being a radical, NO2 molecule shows obvious influence on the electronic transport of pyrene1,8-dithiol molecular junctions. The system with NO2 adsorbate is more conductive in the positive and lower negative bias regime than those of the other two molecular systems, which is due to the evident coupling between the states of NO2 molecule and pyrene-1,8-dithiol molecule.
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环境分子对芘-1,8-二硫醇分子结电子输运的影响
单分子器件由于体积小,可能对环境分子敏感。因此,了解环境分子对分子器件的影响对单分子传感器的制作具有重要意义。基于从头算结合非平衡格林函数法,系统研究了H2O、CO2和NO2分子在芘-1,8-二硫醇分子结上的吸附效应。数值结果表明,H2O或CO2分子吸附在芘-1,8-二硫醇分子上时,对芘-1,8-二硫醇分子结的影响很小,这归因于这两种分子的闭壳基态。与H2O和CO2分子不同,NO2分子作为自由基,对芘1,8-二硫醇分子结的电子输运有明显影响。由于NO2分子与芘-1,8-二硫醇分子之间存在明显的耦合关系,在正偏压和负偏压较低的情况下,NO2吸附体系的导电性优于其他两种分子体系。
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Journal of Atomic and Molecular Sciences
Journal of Atomic and Molecular Sciences PHYSICS, ATOMIC, MOLECULAR & CHEMICAL-
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