密度泛函理论
极限(数学)
从头算
电极
统计物理学
功能(生物学)
分子
电压降
从头算量子化学方法
材料科学
电压
计算机科学
计算物理学
物理
计算化学
化学
量子力学
数学
数学分析
生物
进化生物学
作者
C. J. O. Verzijl,Johannes S. Seldenthuis,J. M. Thijssen
摘要
Transport properties of molecular junctions are notoriously expensive to calculate with ab initio methods, primarily due to the semi-infinite electrodes. This has led to the introduction of different approximation schemes for the electrodes. For the most popular metals used in experiments, such as gold, the wide-band limit (WBL) is a particularly efficient choice. In this paper, we investigate the performance of different WBL schemes relative to more sophisticated approaches including the fully self-consistent non-equilibrium Green's function method. We find reasonably good agreement between all schemes for systems in which the molecule (and not the metal-molecule interface) dominates the transport properties. Moreover, our implementation of the WBL requires negligible computational effort compared to the ground-state density-functional theory calculation of a molecular junction. We also present a new approximate but efficient scheme for calculating transport with a finite bias. Provided the voltage drop occurs primarily inside the molecule, this method provides results in reasonable agreement with fully self-consistent calculations.
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