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线性有机发色团相互作用的定量描述。

Quantitative description of interactions between linear organic chromophores.

机构信息

Institute for Photonics and Quantum Sciences, School of Engineering and Physical Sciences, SUPA, Heriot-Watt University, Edinburgh EH14 4AS, United Kingdom.

出版信息

J Chem Phys. 2012 Dec 14;137(22):224102. doi: 10.1063/1.4768244.

Abstract

To model intermolecular excitation transfer between organic chromophores in the framework of Förster theory, the interaction matrix element is needed for all relative orientations and separations of chromophores. Simulations of extended multi-chromophoric systems thus require a fast but reliable approximation scheme to calculate these dipole interactions. By means of a comparative study of the dipole approximation with quantum chemistry, we demonstrate that the usual line-dipole theory, while suitable for short molecules, breaks down for longer molecules with inter-molecular separations similar to or smaller than the length of the interacting chromophores; a limit that is typically found in conjugated polymer thin films. As a remedy, we propose an improved way of distributing the sub-dipole moments within a line which provides results in very good agreement with the quantum chemistry, and is still simple enough to be used in large scale simulations.

摘要

为了在福斯特理论的框架内对有机发色团之间的分子间激发转移进行建模,需要计算所有发色团相对取向和分离的相互作用矩阵元。因此,扩展多发色团体系的模拟需要一种快速但可靠的近似方案来计算这些偶极相互作用。通过对偶极近似与量子化学的比较研究,我们证明,尽管通常的线偶极理论适用于短分子,但对于分子间距离与相互作用发色团的长度相似或更小的长分子,该理论会失效;这种极限通常存在于共轭聚合物薄膜中。作为一种补救措施,我们提出了一种改进的在线内分配子偶极矩的方法,该方法得到的结果与量子化学非常吻合,并且仍然足够简单,可以用于大规模模拟。

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