共查询到18条相似文献,搜索用时 156 毫秒
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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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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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白光LED用红色荧光粉的研究进展 总被引:1,自引:0,他引:1
白光LED具有工作电压低、功耗低、可靠性高、使用寿命长、环境友好和高能效等一系列优点,是未来照明光源的发展方向。利用LED技术实现白光的方法主要有3种,其中采用蓝光、紫光及近紫外LED芯片激发红、绿、蓝等三基色或多基色荧光粉得到白光LED的技术具有成本低、显色性好等优势,是白光LED的主要发展方向。红色荧光粉在调制白光的色温及改善其显色性等方面起重要作用,其制备技术是目前制约白光LED大规模应用的关键技术,亟待解决。详细介绍了白光LED用红色荧光粉的十余个主要材料体系的发光性能、基本制备方法、取得的研发进展,简单探讨了其未来发展趋势。 相似文献
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Thermal behavior of a quantum dot nanocomposite as a color converting material and its application to white LED 总被引:1,自引:0,他引:1
We present a novel nanocomposite, a mixture of a CdSe/CdS/ZnS red quantum dot (QD), an Sr(2)SiO(4):Eu green phosphor and silicone resin for a color converting material. The temperature rise and the optical characteristics of the nanocomposite due to the addition of the QD have been investigated in terms of QD content ratio and the mixing components. The experimental results suggested that a small addition of QDs generated a large amount of heat during light conversion at the wavelength of QD emission. Considering the temperature rise in a nanocomposite, we applied 0.2 wt% QDs on an InGaN blue LED chip. As a result, we could achieve a white LED device with a high color rendering index of 83.2, a high luminance of 65.86 lm W(-1) and a moderate temperature increase of 94?°C. The white LED converted by the newly developed QD-phosphor nanocomposite has great potential in future illumination. 相似文献
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The thermal stability of blue LEDs and yellow YAG phosphor for blue-pumped white LEDs is critical to the performance of white LEDs, including the color properties and luminous efficacy. To investigate the thermal effect on the color properties of emitted white light, the junction temperature of the excitation blue LED was raised by increasing the supplied current. However, by choosing an optical filter with the appropriate transmittance spectrum for processing a portion of the blue light output and reexciting the secondary yellow emission, we observed a reduction in color instability and lower color temperature across the current range of 20-200 mA. Moreover, the color temperature distribution was improved. 相似文献
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AbstractBy adding red-emitting α-SrO·3B2O3:Sm2+ phosphor and SiO2 co-doping particles to yellow-emitting YAG:Ce phosphor compound, a novel method for improving lighting performance of white LEDs with remote phosphor structure, which have an average correlated color temperature (CCT) of 5600–8500 K, is proposed and demonstrated. By varying α-SrO·3B2O3:Sm2+ concentration from 2 to 30% and maintaining 5% SiO2, the obtained results indicated that color rendering index (CRI), color quality scale (CQS), and luminous flux can be increased significantly. Moreover, the Mie-scattering theory is employed to verify the scattering properties, which have an effect on the enhancement of color quality and luminous flux. The results prove a prospective practical solution for manufacturing remote phosphor white LED (RP-WLED) having higher color quality and luminous flux. 相似文献
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White light emitting diodes (LEDs) have been realized using the active packaging (AP) method. The starting materials were bare InGaN LED chips and CdSe/ZnS core-shell quantum dots (QDs) dispersed in photosensitive epoxy resins. Such hybrid LED devices were fabricated using QD mixtures with one ('single'), two ('dual') or four ('multi') emission wavelengths. The?AP method allows for convenient adjustment of multiple parameters such as the CIE-1931 coordinate (x, y), color temperature, and color rending index (CRI). All samples show good white balance, and under a 20?mA working current the luminous efficacies of the single, dual, and multi hybrid devices were 8.1?lm?W(-1), 5.1?lm?W(-1), and 6.4?lm?W(-1), respectively. The corresponding quantum efficiencies were 4.1%, 3.1%, and 3.1%; the CRIs were 21.46, 43.76, and 66.20; and the color temperatures were 12?000, 8190, and 7740?K. This shows that the CRI of the samples can be enhanced by broadening the QD emission band, as is exemplified by the 21.46 CRI of the single hybrid LED compared to the 66.20 value for the multi hybrid LED. In addition, we were able to increase the CRI of the single hybrid LED from 15.31 to 32.50 by increasing the working currents from 1 to 50?mA. 相似文献
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传统“荧光粉+有机硅脂”荧光转换体的热导率低, 且物理化学稳定性差, 不能应用于高功率白光LED领域。全无机荧光块体材料可以规避有机封装, 具有更高的热导率, 但这类材料面临着成本高且极难实现立体结构的问题。本工作基于非晶态纳米二氧化硅, 得到一种包含(Gd,Y)AG:Ce荧光粉、可在紫外光下固化的浆料, 并通过光固化成型、空气排脂、无压烧结, 制备了一种(Gd,Y)AG:Ce荧光粉-石英玻璃复合材料。该荧光玻璃陶瓷在蓝光激发下发射峰值位于575 nm的宽带橙黄光, 且内量子效率大于90%。研究结果表明, 在致密化烧结过程中, (Gd,Y)AG:Ce荧光粉与石英玻璃之间的界面反应非常微弱, 因此荧光粉能够完好地嵌入到石英玻璃中。该全无机荧光转换体可以用于封装相关色温小于4500 K、显色指数大于75和流明效率为74 lm·W-1的高功率暖白光LED。所构建的激光照明器件的饱和激光功率密度可达2.84 W·mm-2, 此时光通量为180 lm。此外, 所提出的制备方法与3D打印兼容, 可以批量化制造出具有复杂立体结构的荧光转换体。该技术有望推动高功率白光LED朝着个性化和模块化发展。 相似文献