由传统玻璃和照明方式导致的建筑耗能激增问题日显突出，需亟待开发具有节能、环保、实用特性的新技术。申请人针对这一迫切需求，聚焦具有“发光-透光-阻光-反光”四种工作模式的新型光电子器件，使其成为集自然光透过、保温隔热、室内照明于一身的“智能”玻璃。本项目拟通过电致发光器件（ELD）与电致变色器件（ECD）的异型器件集成实现上述功能，将主要研究异型器件集成机理和制备工艺等科学问题，旨在克服传统的“混合型”集成方法导致的电解质荧光猝灭问题，创新性的提出通过中间共透明电极层，将ELD与ECD在空间上分隔开，彻底消除电解质对荧光材料的猝灭影响。申请者希望通过本课题的实施，在实验环节打通基于ELD-ECD集成的关键科学问题，为实现具有我国自主知识产权的智能玻璃技术奠定基础，同时为更广泛的光电子器件集成技术提供一条新思路。

The problem of building energy consumption caused by traditional glass and lighting methods has become increasingly prominent, and new technologies with energy saving, environmental protection and practical characteristics need to be developed urgently. In response to this urgent need, the applicant focuses on a new type of smart glass which can integrate natural light transmission, thermal insulation and indoor lighting. It has four working modes of "Lighting, Transparent, Dark and Mirror", so-called "smart glass" of future buildings. This project intends to achieve the above functions through the organic combination of electroluminescent devices (ELD) and electrochromic devices (ECD). It will mainly study the integration mechanism and fabrication technology of special-shaped devices, aiming at overcoming the electrolyte fluorescence quenching problem caused by the traditional "hybrid" integration method. It is innovatively proposed that ELD and ECD be separated in space through a common transparent electrode layer. Separation completely eliminates the quenching effect of electrolyte on fluorescent materials. The applicants hope that through the implementation of this project, the preparation method of multi-mode smart glass based on ELD-ECD will be established in the experimental stage, which will lay a foundation for the realization of smart glass technology with independent intellectual property rights in China and provide a new idea for wider optoelectronic device integration technology.