高反射率p-GaN欧姆接触电极

根据光学薄膜原理计算了GaN/Ti/Ag、GaN/Al和GaN/Ni/Au/Ti/Ag、GaN/Ni/Au/Al多层电极结构的反射率,得出Ag基和Al基反射电极均能在全角范围内提供较高的反射率。实验测量结果表明,反射率能高于80%的Ag基反射电极,具有低欧姆接触的电学特性。并将GaN/Ni/Au/Ti/Ag多层反射电极应用在上下电极结构的GaN基LED中。实验上采用两步合金法获得了低接触电阻、高反射率的电极结构,并引入Ni/Au覆盖层克服了Ag高温时的团聚和氧化现象。解决了Ag电极的稳定性问题,显著地提高了LED的出光效率,成功制备了具有上下电极结构的GaN基LED管芯。     

顶发射白光OLED微型显示器的蓝光掺杂特性研究

白光OLED微型显示器在信息显示领域具有重要的应用。采用真空镀膜系统,依次蒸镀Ag/ITO复合薄膜作为阳极结构,共蒸制备Mg∶Ag复合膜作为半透明阴极结构,NPB作为空穴传输材料和黄光主体材料,rubrene作为黄光掺杂料,AND作为蓝光主体料,DSA-Ph作为蓝光掺杂料,Alq3作为电子传输材料,以结构和工艺简化的蓝、黄光互补色来实现白光,通过共蒸发形式制备了结构为Ag/ITO/NPB/NPB∶rubrene（1.5%）/ADN∶DSA-Ph（x%/x=2,5,8）/Alq3/Mg∶Ag的白光OLED微型显示器,利用由Photo Research PR655光谱仪、Keithley 2400程控电源组成的光谱测试系统对器件的光电性能进行表征,研究了蓝光掺杂比对白光OLED微型显器性能的影响。结果表明,随着蓝光掺杂比的增加,白光OLED微型显示器的亮度先增加后降低,蓝光、黄光峰位有所偏移,色坐标发生一定的漂移,蓝光色纯度增加,可通过调控发光材料掺杂比实现白光OLED微型显示器性能的可控制备。初步优化获得的蓝、黄混合白光OLED微型显示器的器件,当驱动电压为5.0 V时,器件亮度达到3 679 cd·m-2,CIE坐标为（0.263,0.355）。     

TiO2微粒对远程荧光粉膜及白光发光二极管器件光色性能的影响

利用热压法将TiO₂微粒掺入至YAG:Ce荧光粉和硅树脂中制备出远程荧光粉膜并封装成白光发光二极管(LED)器件, 通过荧光粉相对亮度仪、双积分球测试系统和可见光光谱分析系统对样品的光色性能及机理进行了研究. 结果表明: TiO₂的散射效应能够显著提高蓝光的利用率和黄光的透射强度, 白光LED器件的光通量在TiO₂浓度为0.966 g/cm³ 时达到最高值415.28 lm(@300 mA, 9.3 V), 提高了8.15%, 相关色温从冷白6900 K逐渐变化至暖白3832 K. TiO₂的掺入不仅提高了远程荧光粉膜的发射强度和白光LED器件的光通量, 同时能调控其相关色温.     

Effects of reflector-induced interferences on light extraction of InGaN/GaN vertical light emitting diodes

We provide a large F-P cavity model to analyze the effects of reflector-induced interferences on light extraction of InGaN/GaN vertical light emitting diodes (VLEDs). It shows that the distance (d) between the active region and the metal reflector has a significant influence on extraction efficiency due to interferences. The maximum in extraction efficiency corresponding to the optimal d is about three times the neighboring minimum. The reflector of different metals is considered in this model and the results show that the optimal d and the value of the maximum in the extraction efficiency are directly related to the type of metal, which can be attributed to varied reflection phase shift and reflectivity on different metals, respectively.     

白光LED荧光粉涂敷工艺及光学性质

在20mA电流下,对自行设计的白光LED进行测试,发现荧光粉远离芯片封装方法与传统封装方法相比,流明效率提高了20.3%。效率的提高主要是因为减小了LED芯片对荧光粉散射的吸收。同时测得随着正向电流的增加,色坐标x,y的值逐渐减小,色温升高,而光通量呈非线性增加,流明效率逐渐下降。     

功率型白光LED光学特性退化分析

将GaN基蓝光芯片涂敷YAG荧光粉和透明硅胶制成额定功率为1 W的白光发光二极管(LED),对其施加900mA的电流应力,在老化过程中测量白光LED的主要光学参数,考察其光学特性的退化情况。经过4 200 h的老化,样品光通量退化为初始值的15%~18% 。样品的漏电流明显增大,表明芯片有源区缺陷密度提高,但光谱分布图中蓝光部分的辐射量未减少,仅观察到黄光部分辐射量的减少,推断出YAG荧光粉的转换效率降低。同时,从原理上分析了样品色温逐渐增大,显色指数基本不变的原因,对大功率白光LED在照明领域的应用有一定的借鉴意义。     

高效氟磷酸盐玻璃白光荧光体制备及发光特性

采用熔融淬火方法制备了一系列Sn2+，Dy3+单掺及Sn2+-Dy3+共掺氟磷酸盐玻璃荧光体。利用紫外-可见分光光度计分别对各玻璃荧光体的透过光谱、激发光谱、发射光谱及荧光寿命等进行了测试和分析。结果发现在紫外光激发下，对于Sn2+、Dy3+单掺氟磷酸盐玻璃可分别获得高效的蓝光与黄光发射，且Sn2+单掺氟磷酸盐玻璃荧光体发光显色指数和量子效率最高；对于Sn2+-Dy3+共掺氟磷酸盐玻璃荧光体可实现高效的白光发射，且发现在Sn2+和Dy3+之间存在明显的能量传递，通过调节Dy3+掺杂浓度，两离子之间的能量转移效率亦随之改变，从而可对其白光色度进行调节。当Dy3+掺杂浓度为3 Wt%时，利用280 nm商用LED芯片激发可获得对应色坐标为(0.311，0.330)，量子效率为56.3%，亮度为6 706 cd·m-2的近纯白光发射。此外，对各类玻璃样品的DSC、导热及其他光学性能也进行了测试与计算，获得了各样品的热导率、量子效率、色坐标、显色指数等参数。研究结果表明，制备的高效氟磷酸盐玻璃完全有望作为可调谐白光发光荧光体应用于商用LED。     

ITO‐free top emitting organic light emitting diodes with enhanced light out‐coupling

Bottom emitting organic light emitting diodes (OLEDs) can suffer from lower external quantum efficiencies (EQE) due to inefficient out‐coupling of the generated light. Herein, it is demonstrated that the current efficiency and EQE of red, yellow, and blue fluorescent single layer polymer OLEDs is significantly enhanced when a MoO_x(5 nm)/Ag(10 nm)/MoO_x(40 nm) stack is used as the transparent anode in a top emitting OLED structure. A maximum current efficiency and EQE of 21.2 cd/A and 6.7%, respectively, was achieved for a yellow OLED, while a blue OLED achieved a maximum of 16.5 cd/A and 10.1%, respectively. The increase in light out‐coupling from the top‐emitting OLEDs led to increase in efficiency by a factor of up to 2.2 relative to the optimised bottom emitting devices, which is the best out‐coupling reported using solution processed polymers in a simple architecture and a significant step forward for their use in large area lighting and displays.     

高显色白光LED的制备及其变温特性

分别用黄色、红色荧光粉和黄色、红色、绿色荧光粉制备了两种高显色指数白光发光二极管(LED),调整荧光粉的比例使显色指数达到最高。对两种样品进行光学测试,发现加绿粉的样品光通量比较大,这是因为加绿粉后绿光成分较多,而绿光的视效函数比红光的大得多。对两种样品进行10℃～90℃的变温测试,发现发光效率都降低,显色指数反而升高。发光效率降低一方面是由芯片的内量子效率降低引起的,另一方面是芯片的发射波长红移使其与荧光粉的激发波长不匹配,并且荧光粉在升温时激发效率会降低。显色指数升高是因为高温时芯片发出的蓝光光谱变宽,使得整个光谱相对于室温时的光谱更平滑,更接近太阳光谱。     

p层厚度对Si基GaN垂直结构LED出光的影响

利用金属有机化学气相沉积(MOCVD)法在Si衬底上生长了一系列具有不同p层厚度d的InGaN/GaN蓝光LED薄膜并制备成垂直结构发光二极管(VLEDs),研究了 p层厚度即p面金属反射镜与量子阱层的间距对LED出光效率的影响,并采用F-P干涉模型进行了理论分析.结果显示,光提取效率受d影响很大,随d的增加呈现类似阻...     

面向半导体照明的光学

以发光二极管(LED)为核心的半导体照明光源成为世界公认的第三代照明光源.通常基于蓝光LED抽运黄色荧光粉产生白光的方案,因荧光粉的斯托克斯位移和宽光谱,其具有产业化价值的发光效率上升范围受到极大限制.另外,传统封装LED因其朗伯型发光分布和超高亮度会造成严重的眩光以及光分布难以满足照明应用要求从而导致光污染、光浪费,...     

Color tunable light‐emitting diodes with modified pulse‐width modulation

In this study, a color tunable light source, operated by a modified pulse width modulation method, is investigated. By utilizing this method along with anti‐parallel connected discrete light‐emitting diodes (LEDs) and two electrical terminals, a wide range of the chromaticity coordinates is attained and varied by electrical control. Using the combination of a blue LED and a phosphor‐converted yellow LED (blue LED plus yellow phosphor), the chromaticity range is varied by electrical control from pure blue to pure yellow. In addition, using the modified pulse‐width modulation method and a combination of white and red LEDs, white light with correlated color temperatures ranging from 5000 K to 2000 K is demonstrated. (© 2009 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)     

Highly Efficient and Stable Hybrid White Organic Light Emitting Diodes with Controllable Exciton Behavior by a Mixed Bipolar Interlayer

Highly efficient and stable hybrid white organic light-emitting diodes(HWOLEDs) with a mixed bipolar interlayer between fluorescent blue and phosphorescent yellow emitting layers are demonstrated.The bipolar interlayer is a mixture of p-type diphenyl(10-phenyl-10H-spiro[acridine-9,9'-fluoren]-3'-yl) phosphine oxide and n-type 2',2"-(1,3,5-benzinetriyl)-tris(l-phenyl-l-H-benzimidazole).The electroluminance and Commission Internationale de l'Eclairage(CIE1931) coordinates' characteristics can be modulated easily by adjusting the ratio of the holepredominated material to the electron-predominated material in the interlayer.The hybrid WOLED with a p-type:n-type ratio of 1:3 shows a maximum current efficiency and power efficiency of 61.1 cd/A and 55.8hn/W,respectively,with warm white CIE coordinates of(0.34,0.43).The excellent efficiency and adaptive CLE coordinates are attributed to the mixed interlayer with improved charge carrier balance,optimized exciton distribution,and enhanced harvesting of singlet and triplet excitons.     

双层荧光粉涂覆对COB封装LED出光的影响

为了提高LED出光量,基于传统的荧光粉涂覆设计了一种双层荧光粉涂覆结构。通过对上下涂覆层浓度及上层涂覆量的研究,探究双层涂覆结构对COB封装LED出光的影响。结果表明在通电电流为440 mA时,可在实验中实现15 W的COB封装结构的白光LED:涂覆单一黄色荧光粉,上下层胶粉比为14.2～28且上层涂覆体积为下层的0.8倍时,COB封装LED的光通量为2 179 lm,光效可达145.3 lm/W,显指为63,出光量最大提升为7.82%;荧光粉调整为黄绿粉和红粉的配合使用后,最终实现色温、光效及显指分别为4 854 K、129.7 lm/W和81.2。因此,双层荧光粉涂覆结构可以提高COB封装LED的光学性能,对实际生产有一定的应用价值。     

感光性树脂应用于发光二极管平面自适应封装技术

采用感光性树脂+荧光粉进行了发光二极管平面自适应涂覆技术,实现了白光发光二极管荧光粉涂层的平面化工艺,使器件出光的亮度、空间色度均匀性较之传统封装工艺器件有了明显的改善,光斑及单管间色度、亮度偏差均小于6%.综合聚乙烯醇的感光和硅胶的物化、光学性能,在粉浆法工艺中采用乳化技术,实现了聚乙烯醇+硅树脂的多相结构的荧光粉平面涂层,有助于进一步改善荧光粉层的物化性能,而多相涂层有效折射率的提高更有利于提高器件的整体出光效率.由于感光性树脂其感光波长覆盖范围非常广,另外还可以通过光增感等技术使其感光波长范围变得其与发光二极管的发光波长相匹配,这样,对于各种荧光粉转化的白光发光二极管都可以实现平面涂层技术.由于大部分感光材料对紫外部分的吸收更强烈,所以对于紫外+三基色荧光粉的传统灌封技术将会得到明显的改善.     

感光性树脂应用于发光二极管平面自适应封装技术

采用感光性树脂+荧光粉进行了发光二极管平面自适应涂覆技术,实现了白光发光二极管荧光粉涂层的平面化工艺,使器件出光的亮度、空间色度均匀性较之传统封装工艺器件有了明显的改善,光斑及单管间色度、亮度偏差均小于6%.综合聚乙烯醇的感光和硅胶的物化、光学性能,在粉浆法工艺中采用乳化技术,实现了聚乙烯醇+硅树脂的多相结构的荧光粉平面涂层,有助于进一步改善荧光粉层的物化性能,而多相涂层有效折射率的提高更有利于提高器件的整体出光效率.由于感光性树脂其感光波长覆盖范围非常广,另外还可以通过光增感等技术使其感光波长范围变得其与发光二极管的发光波长相匹配,这样,对于各种荧光粉转化的白光发光二极管都可以实现平面涂层技术.由于大部分感光材料对紫外部分的吸收更强烈,所以对于紫外+三基色荧光粉的传统灌封技术将会得到明显的改善.     

A novel yellow phosphor for white light emitting diodes

This paper reports that a novel yellow phosphor, LiSrBO₃:Eusup>2+, was synthesized by the solid-state reaction. The excitation and emission spectra indicate that this phosphor can be effectively excited by ultraviolet (360 and 400~nm) and blue (425 and 460~nm) light, and exhibits a satisfactory yellow performance (565~nm). The role of concentration of Eusup>2+ on the emission intensity in LiSrBO₃ is studied, and it is found that the critical concentration is 3 mol\%, and the concentration self-quenching mechanism is the dipole--dipole interaction according to the Dexter theory. White light emitting diodes were generated by using an InGaN chip (460~nm or 400~nm) with LiSrBO₃:Eusup>2+ phosphor, the CIE chromaticity is (x=0.341, y=0.321) and (x=0.324, y=0.318), respectively. Therefore, LiSrBO₃:Eusup>2+ is a promising yellow phosphor for white light emitting diodes.     

Effect of phosphor settling on the optical performance of phosphor-converted white light-emitting diode

Phosphor settling phenomena exists during the phosphor coating process in the light emitting diode (LED) packaging industry. It is perceived that phosphor settling will affect the concentration of the phosphor, and consequently the concentration will influence the optical performance of phosphor-converted white LED light source. In this paper, an experiment based on the real packaging process was conducted to investigate the phosphor settling phenomena. It was found that the concentration variation of the phosphor embedded in the silicone matrix was very small (less than 1%). Based on the observation of the experiments, the effect of the phosphor settling in the silicone matrix on light extraction efficiency (LEE), correlated color temperature (CCT), angular color uniformity (ACU) and light intensity distribution curve (LIDC) was investigated and discussed by the three dimensional Monte Carlo ray-tracing simulations. It was discovered that the effect of the phosphor settling on the optical performance could be neglected when using the present packaging process.     

MOCVD生长InGaN/GaN MQW紫光LED

利用LP－MOCVD系统生长了InGaN/GaN MQW紫光LED外延片，双晶X射线衍射测试获得了2级卫星峰，室温光致发光谱的峰值波长为399.5nm，FWHM为15.5nm，波长均匀性良好。制成的LED管芯，正向电流20mA时，工作电压在4V以下。     

基于溶液加工小分子材料发光层的有机-无机复合发光器件

报道了基于溶液加工有机小分子材料发光层、聚乙烯亚胺电子注入层的有机-无机复合发光器件. 优化了空穴传输层和磷光染料的掺杂浓度, 得到最佳发光效率的器件. 蓝光、黄光和红光器件的最大外量子效率为17.3%, 10.7% 和7.3%. 在发光亮度为1000 cd/m² 时, 蓝光、黄光和红光器件的外量子效率分别为17.0%, 10.6% 和5.8%, 器件效率下降较小. 原因在于同时采用空穴传输型和电子传输型的小分子材料作为共同主体材料, 器件具有较宽的载流子复合区域, 降低了三线激发态-三线激发态湮灭和三线激发态-极化子相互作用对器件发光效率的影响. 白光器件在亮度为1000 cd/m²时, 发光效率和功率效率为31 cd/A和 14.8 lm/W. 器件的色度为(0.32, 0.42), 色度比较稳定, 随电流的变化微小. 器件的效率较以往报道的有机-无机复合发光器件有显著的提高, 主要归因于在聚乙烯亚胺上能够制备特性良好的小分子材料薄膜, 以及小分子主体材料拥有较高的三线态能量和平衡的载流子传输特性, 能够获得高效的磷光发射.