导电高分子材料界面工程对光电转换效率的影响  

The influence of interface engineering of conductive polymer materials on optoelectronic conversion efficiency

作  者:王梓铭 WANG Ziming(Henan Polytechnic University,Jiaozuo 454000,Henan,P.R.China)

机构地区:[1]河南理工大学,河南焦作454000

出  处:《灯与照明》2025年第1期121-123,共3页Light & Lighting

摘  要:在光电转换领域,导电高分子材料因其独特的电子输运性质和柔韧性,展现出巨大的应用潜力。材料界面的性能,尤其是电荷的生成、分离与传输效率,极大地影响了光电转换效率。本文聚焦于导电高分子材料的界面工程,探讨导电高分子材料界面的工程原理,包括界面能级匹配、界面态调控以及界面接触面积的优化策略。在实验方法与材料制备方面,采用了一系列先进的制备技术,如溶液加工、光刻技术以及电化学沉积,制备了具有优化界面结构的导电高分子材料。结果表明,通过精细调控材料界面,显著提高了光电转换效率,为高性能光电转换器件的开发提供了新的思路,并为该领域的持续发展奠定了坚实的基础。In the field of photoelectric conversion,conductive polymer materials have shown great application potential due to their unique electron transport properties and flexibility.The properties of the material interface,especially the charge generation,separation and transmission efficiency,greatly affect the photoelectric conversion efficiency.This article focuses on the interface engineering of conductive polymer materials and discusses the engineering principles of the interface of conductive polymer materials,including interface energy level matching,interface state control,and optimization strategies for interface contact area.In terms of experimental methods and material preparation,a series of advanced preparation technologies,such as solution processing,photolithography and electrochemical deposition,were used to prepare conductive polymer materials with optimized interface structures.The results show that by finely controlling the material interface,the photoelectric conversion efficiency is significantly improved,providing new ideas for the development of high-performance photoelectric conversion devices and laying a solid foundation for the sustainable development of this field.

关 键 词:导电高分子材料 界面工程 光电转换效率 界面修饰 能级匹配 

分 类 号:TB3[一般工业技术—材料科学与工程]

 

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