用激发子散射方法研究新型低维共轭分子体系的电子激发态

项目名称： 用激发子散射方法研究新型低维共轭分子体系的电子激发态

项目编号： No.21203143

项目类型： 青年科学基金项目

立项/批准年度： 2013

项目学科： 物理化学

项目作者： 吴超

作者单位： 西安交通大学

项目金额： 24万元

中文摘要： 共轭分子是制造光电设备的潜在材料，快速发展的合成技术促生了大量新型共轭分子，理解与准确预测共轭分子的电子激发态结构是设计与优化共轭分子材料的前提。激发子散射方法是一种高效准确的处理共轭体系激发态的唯象方法。它将复杂共轭体系的电子激发态看作激发子在该体系内的传播和散射所形成的驻波。复杂共轭体系可被分为有限的散射结构单元，相关的散射参数可以从实验或量子计算的结果中提取。该方法避免了传统的电子结构计算，能够处理由已表征的结构单元所组成的大分子体系，并且计算结果能够保持提取参数所用数据的精度。本项目申请主要是：一、继续发展激发子散射方法，使其能够处理声子-电子作用、结构缺陷、周期性结构等方面，即能够处理更现实的系统；二、将激发子散射方法应用于新的低维共轭体系（纳米线、圈、环等），从激发子散射的角度给出新的物理图象解释；三、初步建立共轭分子数据库，结合激发子散射方法，提供快速设计光电材料的工具。

中文关键词： 激发子散射；低维共轭体系；表面/界面；应变工程；

英文摘要： With the fast development of synthetic techniques, a large number of novel conjugated molecules have been created, which are potential materials for optoelectronic devices. It is desirable to understand and accurately predict excited state electronic structures for these molecules, as it forms the basis of design and optimization of conjugated materials. The Exciton Scattering Approach (ESA) is an efficient and accurate phenomenological method for dealing with the electronic excitations in conjugated systems. In ESA, excited states are treated as standing waves from exciton propagation (in linear parts) and scattering (at termini and nodes) in a conjugated system. Complex conjugated systems can be divided into a handful of building blocks, whose scattering parameters can be derived from either experiments or quantum calculations. ESA avoids the traditional direct electronic structure calculations, and it can be applied to any large system consisting of the characterized building blocks. Moreover, it maintains the accuracy of the data used for parameter extraction. The main purposes of this proposal are: 1. Continue to develop ESA. Incorporate phonon-exciton interaction, structural disorder, periodicity, etc. into ESA, so that more practical systems can be considered. 2. Apply ESA to novel low dimensional systems

英文关键词： Exciton Scattering；Low dimensional conjugated system；surface/interface；strain engineering；