利用磁-光-电综合手段解析有机与钙钛矿材料的激发态动力学过程:实现跨学科交叉研究

Analyzing Excited State Dynamics of Organic and Perovskite Materials Using Magnetic-optical-electrical Comprehensive Methods:Achieving Interdisciplinary Research and Cross-disciplinary Collaboration

当前,有机和钙钛矿材料在发光显示和太阳能电池等领域得到了广泛的应用。为了更好地深入研究这些材料的特性和优化其性能,研究人员需要对它们的激发态动力学过程进行充分的了解。为此,利用磁-光-电综合手段成为了研究这些材料的重要方法之一。通过这些手段,可以对有机和钙钛矿材料的激发态动力学过程进行精确表征,并得出其结构的细节特征,如电子-空穴对分离过程和体内极化等。此外,这些手段还可以研究材料的磁光特性和电学性质,从而为实现这些材料的跨学科交叉研究提供支持。本文结合作者的研究工作,阐述了基于钙钛矿和有机材料,利用磁-光-电研究手段在非线性发光薄膜和光伏器件方面展开的相关研究。通过这些研究,可以更好地理解这些材料的性能和特征,并为开发更先进的光电器件奠定基础。

Currently,organic and perovskite materials have been widely used in fields such as luminescent dis⁃plays and solar cells.To better understand the characteristics of these materials and optimize their performance,re⁃searchers need to have a thorough understanding of their excited state dynamics.Therefore,the use of magneto-optoelectronic comprehensive methods has become an important way to study these materials.Through these methods,the excited state dynamics of organic and perovskite materials can be accurately characterized,and detailed structur⁃al features such as electron-hole separation processes and intramolecular polarization can be obtained.In addition,these methods can also study the magneto-optical properties and electrical properties of materials,thereby providing support for interdisciplinary research on these materials.This article combines the author􀆳s research work to elabo⁃rate on the relevant research on nonlinear luminescent films and photovoltaic devices based on perovskite and organic materials using magneto-opto-electronic research methods.We can better understand the performance and character⁃istics of these materials and lay the foundation for the development of more advanced optoelectronic devices based on these studies.