研究方向
信息来源:暂无 发布日期: 2017年06月18日 浏览次数:
印刷显示与柔性器件
Printed Electronics and Flexible Device
开发适合印刷工艺的有机(量子点)墨水体系,采用印刷工艺实现有机(量子点)显示器件的制备,研究打印型有机(量子点)发光器件的最优化结构,探索从功能层到发光层的最优化制备工艺条件,探讨通过调整功能层的工艺参数提升器件光电性能的技术途径。研究柔性有机(量子点)器件的印刷电极制备工艺,探索柔性显示器件的印刷制备工艺,分析发射光在介质及界面的传输过程,探索提升器件出光效率的技术方法。开发全印刷高性能薄膜晶体管器件。开发适合打印的墨水体系,进行界面工程优化以及探索微观结构与器件电学性能之间的联系。
We develop ink system for the organic materials or quantum dots for printed display devices. We also develop optimized structures of OLED and QLED and explore best technological conditions of preparation from functional layer to emitting layer. Meanwhile, we discuss preparation of printed electrode for flexible organic devices and preparation of printing about flexible display devices in order to analysis transmission process about emitted light in medium and interface and explore technical methods about increasing efficiency of the light extracting rate. We aim to develop fully printed thin film transistors devices with high performance and good stability. We develop ink system for printed TFT arrays, optimize the interface between each layer, and investigate the relationship between micro/nano structure and device performance.
3D技术及应用
3D Technology and its Application
开展基于2D/3D自适应转换的液晶透镜或液晶光阀的关键技术和关键材料开发,突破2D转3D、单视点转多视点的图形图像处理技术,实现2D/3D自适应的裸眼3D显示和产业化。依托福建省信息3D制造公共服务平台,面向我省信息光电产业需求,突破新型3D制造和微3D制造核心材料制备和关键技术,开展导光板、彩色滤光膜、偏振膜、增亮膜等功能性光学膜的核心材料与关键技术研究,开发高性能多点触控新型材料和结构的关键技术研发。开发照明和背光源模组设计与制造共性技术及其系统集成研究;开发基于3D制造技术制备的光伏器件和印刷电池。
Based on 2D/3D adaptive conversion of liquid crystal lens or by developing key technologies and key materials of liquid crystal light valve, our aims are to achieve 2D/3D adaptive conversion of glass-free 3D display and its industrialization by breaking a transformation from 2D to 3D, and a graphics and image processing technology from a single point of view to multiple viewpoints. Relying on 3D Manufacturing Technology Public Service Platform and meeting the needs of Fujian Province’s optoelectronics industry, we break out the core material preparation and key technology of new-type 3D manufacturing and micro-3D manufacturing, conduct researches about key materials and key technology of functional films, such as light guide plate, color filter, polarizing film, brightness enhancement film and so on. We study key technology development about high-performance of multi-touch new materials and structures. Meanwhile, we discuss lighting and backlight module design and its generic technology and its system integration.
AR/VR技术及应用/ AR/VR Technology and its Application
开展高分辨率宽视角高色彩还原度显示技术研究,开发沉浸式头盔升级改造和多视点裸眼3D显示应用技术,研发集成成像3D显示、新型视差光栅、2D/3D转换技术;开展三维信息建模技术研究,开发大规模激光扫描与三维精细重建应用技术,研发基于多机拼接的快速建模技术;开展三维虚拟人技术研究,开发基于3D对象的运动生成与控制技术,研发人体运动的获取与理解技术。
We develop high resolution, wide viewing angle, high color restoration technology. Immersed helmet and multi-view naked three-dimensional display technology are improved for VR/AR application. In the meanwhile, we study integral imaging, new parallax grating pattern, 2D/3D conversion technology. Three-dimensional modeling technology is developed. We especially study large-scale laser scanning and three-dimensional detail reconstruction using multi-machine stitching. We work on the three-dimensional virtual human stimulation theory. Corresponding motion generation/controlling technology are developed and human body motion capture/understanding technology is fully studied.
4. 新能源技术/ New Energy Technology
在聚合物太阳能电池和钙钛矿太阳能电池的方面,主要开展材料选择、活性层和界面优化,激子分离以及载流子的传输与收集和光电转化效率的研究,制备出高效稳定的大面积太阳能电池。在锂离子电池方面,主要从事锡基材料、钛基材料、过渡金属氧化物材料、碳素材料及其复合氧化物材料和多孔纳米等有关功能纳米材料合成及其在锂离子电池储能应用方面研究工作。
We work on the polymer solar cells and perovskite solar cells via material synthesis, optimization of the active layer and interface in order to improve exciton dissociation and charge transport for high performance large area solar cell devices. The study about Lithium ion batteries concentrates on functional nanomaterials synthesis and its application in lithium-ion batteries as power sources, which includes tin-based materials, ti-based materials, transition metal oxides, carbon materials and its complex oxide materials and Nano-structure Porous Composite and other aspects.