共查询到19条相似文献,搜索用时 125 毫秒
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白光LED用光转换材料的研究 总被引:1,自引:0,他引:1
白光LED是新型的固体照明光源,具有耗电量小、寿命长、环保、响应速度快等优点.主要介绍了与白光LED相匹配的光转换材料的种类及每种光转换材料的研究进展,并比较了其优缺点.单一基质白光荧光粉因颜色稳定、色彩还原性好,成为白光LED用光转换材料的研究热点,此外由于近紫外LED芯片的研究也比较活跃,所以目前对于单一基质白光荧光粉的研究多是基于近紫外芯片激发.随着研究的深入,近紫外LED与单一基质白光荧光粉相匹配实现白光发射有望成为白光LED产业化的主体. 相似文献
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白光LED用稀土红色荧光粉的研究进展 总被引:4,自引:1,他引:3
白光LED具有低压、低功耗、高可靠性和长寿命等一系列优点,是一种符合环保和节能的绿色照明光源。现阶段制造高显色指数、低色温,大功率白光LED是白光LED发展的总体趋势。而红色荧光粉性能对白光LED的显色指数及色温的影响极其显著。本方法着重介绍和评述了白光LED用红色荧光粉硫化物、氮化物、钼酸盐和钨酸盐等几大主要体系的发光性质及最新研究成果和发展现状,并对白光LED用荧光粉的发展进行了展望。 相似文献
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白光LEDs(White Light-Emitting Diodes, WLEDs)作为一种新型的固体照明光源, 相对于已有光源(白炽灯、荧光灯等)具有发光效率高、响应速度快、寿命长等优势, 在照明和显示领域有着广阔的应用前景。目前获取WLEDs最常用的方法是蓝光LED芯片激发YAG : Ce 3+黄光荧光粉以及紫外-近紫外芯片激发三基色荧光粉(RGB混合荧光粉), 相比于以上两种方式, 单基质WLEDs荧光粉由于能克服传统RGB荧光粉颜色再吸收及配比调控的问题, 获得较高的流明效率及较高色彩还原性而受到越来越多的关注。目前关于单基质白光荧光的研究已有大量文献报道, 涉及多种材料体系, 按照发光原理的不同, 可以将其地简单分为单离子激发体系、多离子激发体系以及不依赖于稀土离子发光的其他体系等。本文综述了单基质WLEDs荧光粉的研究进展, 指出了其发展中存在的问题, 并对未来发展趋势作了展望。 相似文献
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蓝光激发红色荧光粉的研究进展及其在白光LED中的应用 总被引:1,自引:1,他引:0
蓝光LED芯片激发黄色荧光粉是目前白光LED的主要实现方式,引入红色荧光粉对调整白光LED的显色指数及色温有重要意义。重点介绍和评述了可被蓝光激发且具有宽发射带的硫化物、氮化物、铝酸盐等几种体系红色荧光粉的发光性质、最新研究成果及在白光LED中的应用。对比发现,氮化物荧光粉可被从近紫外到可见绿光有效激发,随基质组成的不同,可发出峰值波长为600~650nm的红色荧光,且由于其优良的化学稳定性、热稳定性成为最有前途的一类红色荧光粉。采用两种以上的荧光粉代替单一黄色荧光粉,有利于调整白光LED的色温,提高显色指数。 相似文献
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53% Efficient Red Emissive Carbon Quantum Dots for High Color Rendering and Stable Warm White‐Light‐Emitting Diodes 下载免费PDF全文
Zifei Wang Fanglong Yuan Xiaohong Li Yunchao Li Haizheng Zhong Louzhen Fan Shihe Yang 《Advanced materials (Deerfield Beach, Fla.)》2017,29(37)
Red emissive carbon quantum dots (R‐CQDs) with quantum yield of 53% is successfully prepared. An ultraviolet (UV)‐pumped CQD phosphors‐based warm white light‐emitting diode (WLED) is realized for the first time and achieves a color rendering index of 97. This work provides a new avenue for the exploration of low cost, environment‐friendly, and high‐performance CQD phosphors‐based warm WLEDs. 相似文献
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Shahid Ullah Khan Waheed Ullah Khan Wasim Ullah Khan Dilfaraz Khan Sumbul Saeed Syed Badshah Muhammad Ikram Tawfik A. Saleh 《Small (Weinheim an der Bergstrasse, Germany)》2020,16(25)
The luminous efficiency of inorganic white light‐emitting diodes, to be used by the next generation as light initiators, is continuously progressing and is an emerging interest for researchers. However, low color‐rendering index (Ra), high correlated color temperature (CCT), and poor stability limit its wider application. Herein, it is reported that Sm3+‐ and Eu3+‐doped calcium scandate (CaSc2O4 (CSO)) are an emerging deep‐red‐emitting material with promising light absorption, enhanced emission properties, and excellent thermal stability that make it a promising candidate with potential applications in emission display, solid‐state white lighting, and the device performance of perovskite solar cells (PSCs). The average crystal structures of Sm3+‐doped CSO are studied by synchrotron X‐ray data that correspond to an extremely rigid host structure. Samarium ion is incorporated as a sensitizer that enhances the emission intensity up to 30%, with a high color purity of 88.9% with a 6% increment. The impacts of hosting the sensitizer are studied by quantifying the lifetime curves. The CaSc2O4:0.15Eu3+,0.03Sm3+ phosphor offers significant resistance to thermal quenching. The incorporation of lanthanide ion‐doped phosphors CSOE into PSCs is investigated along with their potential applications. The CSOE‐coated PSCs devices exhibit a high current density and a high power conversion efficiency (15.96%) when compared to the uncoated control devices. 相似文献