范德华相互作用对有机分子 - 金属结的重要性：以噻吩在Cu(110)上的吸附为例

Importance of van der Waals interaction for organic molecule-metal junctions: adsorption of thiophene on Cu(110) as a prototype.

作者信息

Sony Priya, Puschnig Peter, Nabok Dmitrii, Ambrosch-Draxl Claudia

机构信息

Chair of Atomistic Modelling and Design of Materials, University of Leoben, Franz-Josef-Strasse 18, A-8700 Leoben, Austria.

出版信息

Phys Rev Lett. 2007 Oct 26;99(17):176401. doi: 10.1103/PhysRevLett.99.176401.

DOI:10.1103/PhysRevLett.99.176401

PMID:17995351

Abstract

We report ab initio calculations for the interface energetics of a weakly adsorbed organic molecule on a metal surface, which serves as a model interface relevant for organic electronics. The studied thiophene ring is found to be physisorbed on the Cu(110) surface with an adsorption energy of -0.50 eV. Nonlocal correlations, i.e., van der Waals interactions, are solely responsible for the binding in this weakly interacting system, and the choice of the proper exchange-correlation function is crucially important. The adsorption of thiophene lowers the metal work function due to the formation of surface dipoles while no sizable charge transfer is found.

摘要

我们报告了关于金属表面上弱吸附有机分子的界面能的从头算计算，该界面作为与有机电子学相关的模型界面。研究发现，噻吩环以 -0.50 eV 的吸附能物理吸附在 Cu(110) 表面上。在这个弱相互作用体系中，非局域关联，即范德华相互作用，是结合的唯一原因，选择合适的交换关联函数至关重要。噻吩的吸附由于表面偶极子的形成而降低了金属功函数，同时未发现可观的电荷转移。

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范德华相互作用对有机分子 - 金属结的重要性：以噻吩在Cu(110)上的吸附为例

Importance of van der Waals interaction for organic molecule-metal junctions: adsorption of thiophene on Cu(110) as a prototype.

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