共查询到18条相似文献,搜索用时 62 毫秒
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电子墨水技术的研究进展 总被引:7,自引:0,他引:7
对当今世界上主流的5种电子墨水技术的原理做了概括性的介绍与评述.它们分别是微胶囊电泳、双色拧转球、胆甾型液晶、电湿技术和电致变色技术. 相似文献
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电致变色材料的变色机理及其研究进展 总被引:1,自引:0,他引:1
电致变色材料是目前公认的最有发展前途的智能材料之一。简要介绍了无机电致变色材料(如WO3、MoO3、NiO、IrOx等)和有机电致变色材料(如紫罗精、稀土酞花菁、聚苯胺等)这两种不同类型的变色材料及其研究现状,阐述了电致变色现象及其变色机理,并展望了其应用前景和发展方向。 相似文献
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量子点是一种具有量子限域效应的半导体纳米晶,近年来,以其优异的光电特性得到了广泛关注。量子点具有发光效率高、发光波长可调、发光半峰宽窄、可溶液法低成本制备等优势,已被大量应用于显示领域,成为了新型显示的核心材料之一。微显示技术一般应用于有效显示区域对角线长度小于1 inch的近眼显示场景中,近年来虚拟现实、增强现实等近眼显示场景的兴起,对高亮度、高像素密度、全彩色的微显示技术提出了更高的要求。本文将从量子点应用于高亮度、高像素密度的全彩微显示技术的角度出发,从光致发光和电致发光两条技术路线对现有的进展进行回顾和总结,最后对量子点应用于微显示技术面临的机遇和挑战进行展望。 相似文献
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微胶囊制作技术及其在电子纸中的应用 总被引:12,自引:0,他引:12
电泳显示、LCD等信息显示技术,应用于电子纸产品,存在性能不稳、产品寿命短等问题.本文综述了复凝聚、原位聚合等微胶囊合成方法及其改进技术,包括使用阻聚剂提高胶囊平滑度、加入抗冲击剂改善胶囊分散状态以及无机颜料、有机颜料和纳米SiO2等电泳颗粒的微胶囊改性技术,展示了电泳墨水微胶囊技术的新进展.微胶囊技术应用于电泳显示、LCD以及双色球和磁性电子纸等,改善了电子纸显示器性能,促进了电子纸及其应用技术产业化发展。 相似文献
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Kiran T. Kamtekar Andrew P. Monkman Martin R. Bryce 《Advanced materials (Deerfield Beach, Fla.)》2010,22(5):572-582
WOLEDs offer new design opportunities in practical solid‐state lighting and could play a significant role in reducing global energy consumption. Obtaining white light from organic LEDs is a considerable challenge. Alongside the development of new materials with improved color stability and balanced charge transport properties, major issues involve the fabrication of large‐area devices and the development of low‐cost manufacturing technology. This Review will describe the types of materials (small molecules and polymers) that have been used to fabricate WOLEDs. A range of device architectures are presented and appraised. 相似文献
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利用Thomson data analyzer及中外专利数据库服务平台等工具,从专利类型分布、专利数量年度分布、国家/地区分布等方面分析了在我国申请的有机电致发光显示专利,特别是从法律状态方面进行了较为深入的分析,揭示了有机电致发光显示技术在我国的整体发展态势。 相似文献
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Yufeng Pan Yingdong Xia Haijuan Zhang Jian Qiu Yiting Zheng Yonghua Chen Wei Huang 《Advanced materials (Deerfield Beach, Fla.)》2017,29(44)
Organic light‐emitting devices (OLEDs), typically operated with constant‐voltage or direct‐current (DC) power sources, are candidates for next‐generation solid‐state lighting and displays, as they are light, thin, inexpensive, and flexible. However, researchers have focused mainly on the device itself (e.g., development of novel materials, design of the device structure, and optical outcoupling engineering), and little attention has been paid to the driving mode. Recently, an alternative concept to DC‐driven OLEDs by directly driving devices using time‐dependent voltages or alternating current (AC) has been explored. Here, the effects of different device structures of AC‐driven OLEDs, for example, double‐insulation, single‐insulation, double‐injection, and tandem structure, on the device performance are systematically investigated. The formation of excitons and the dielectric layer, which are important to achieve high‐performance AC‐driven OLEDs, are carefully considered. The importance of gaining further understanding of the fundamental properties of AC‐driven OLEDs is then discussed, especially as they relate to device physics. 相似文献
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