花状Sr3Al2O6：Eu^2＋晶体的干燥方式与发光性能

为研究稀土发光纳米晶的微观结构和形貌对发光性能的影响,用凝胶-微波干燥法和凝胶-烘箱干燥法制备了花状形貌的Sr3Al2O6晶体.研究了微波干燥和烘箱干燥两种不同的干燥方式对溶胶-凝胶法制备的Sr3Al2O6∶Eu2+发光粉体粒径、形貌、团聚程度、干燥时间及发光性能等的影响,结果表明采用微波干燥不仅可以大大缩短干燥所需时间,而且有利于减弱Sr3Al2O6∶Eu2+发光粉料的团聚和团聚程度,制得了颗粒分散均匀、团聚程度低、发光强度高的Sr3Al2O6∶Eu2+花状形貌粉体.研究了Sr3Al2O6∶Eu2+发光粉体的新型形貌对发光性能的影响,微波干燥法制备的均匀分散的花状形貌发光粉体发光强度高,余辉时间长达20 min.

Sr3-aXaSiO5：Eu^2＋荧光粉的制备及系列波长白光LED器件

本文研究的主要内容是用Ba、Ca替换Sr3SiO5相中Sr：Sr3-xBaxSiO5：Eu^2＋、Sr3-axCaxSiO5：Eu%2＋，制备系列波长荧光粉，形成由冷白光到暖白光的系列白光LED器件。

微乳液法制备MAl2O4：Eu^2＋，Dy^3＋（M=Ca，Sr，Ba）发光材料及其发光性能

采用微乳液法合成了MAl2O4：Eu^2＋，Dy^3＋（M=Ca，Sr，Ba）长余辉发光材料，并对其晶体结构和发光性能进行了比较与讨论。XRD分析表明，所合成的Ca2O4：Eu^2＋，Dy^3＋，SrAl2O4：Eu^2＋，Dy^3＋粉体为单斜晶系结构，BaAl2O4：Eu^2＋，Dy^3＋粉体为六方晶体结构。MAl2O4：Eu^2＋，Dy^3＋（M=Ca，Sr，Ba）发光材料的激发光谱都为一宽带连续谱，表明从紫外至可见光均可有效的激发该材料。发射光谱的发射波长峰值分别为440nm（M=Ca），520nm（M=Sr）和496nm（M=Ba）。对应的发光颜色分别为蓝色、黄绿色和蓝紫色。余辉衰减曲线分为快衰减、中间过渡衰减和随后极长的慢衰减过程，符合双曲线方程I=At^-n，余辉亮度与时间顺序为Sr〉Ca〉Ba。

前驱体预烧-共沉淀法制备SrAl2O4：Eu^2＋,Dy^3＋发光粉体及其发光性能

采用助熔剂预烧-共沉淀法制备初始荧光亮度较高的SrAl2O4:Eu2+,Dy3+发光粉体,并利用XRD、SEM、PL光谱等表征手段研究了预烧结过程与硼酸掺杂对发光粉体的结构与荧光性能的影响。结果表明:在硼酸摩尔分数为0.3和300℃空气气氛下对前驱体预烧结2 h后,粉体的结晶性能得到改善,其初始荧光强度相对于未预烧的产品,提高了2倍多。初步研究了其发光机理,发现初始强度提高的原因是经过预烧结处理能够在Eu2+周围产生更多的氧缺陷,从而提高了发光中心的发光效率和强度。

Interaction of Rare Earth Ions in Sr2MgSi2O7：Eu^2＋,Dy^3＋ Material

To discuss the function of Eu and Dy and their interaction in Sr2 Mg Si2O7：Eu^2＋,Dy^3＋ long afterglow material,the Eu and Dy single doped and their co-doped Sr2 Mg Si2O7：Eu^2＋,Dy^3＋ were prepared.The samples were characterized by X-ray diffraction（XRD）,decay curves,photoluminescence（PL）,and thermoluminescence（TL）.The results indicate that Sr2 Mg Si2O7：Eu has afterglow properties,and the doping of Eu ion in Sr2 Mg Si2O7：Eu^2＋,Dy^3＋ can lower the depth of traps.Eu ion can not only serve as luminescence center,but also produce traps in the matrix,meanwhile,it also exerts certain influences on the traps produced by Dy in Sr2 Mg Si2O7：Eu^2＋,Dy^3＋.The Dy ion can not act as luminescence center but relates to the change of the traps in the Sr2 Mg Si2O7 matrix.

CaAlSiN3∶Eu^2＋荧光粉掺杂PC透光罩的制备及其在植物灯中的应用

为了实现传统白光LED光源与植物照明用光源之间的快速转换,采用高温熔融造粒的方式制备了不同质量分数CaAlSiN_3∶Eu^(2+)(CASN∶Eu^(2+))掺杂的荧光聚碳酸酯(PC)透光罩,并进行了结构和光学分析。制备了荧光PC透光罩配备的T8型LED灯管,测试了其EL光谱、相关光学性质以及对于生菜的种植效果。结果表明,CASN∶Eu^(2+)荧光粉在掺杂过程中性质稳定,该灯管随着配备的透光罩的荧光粉掺杂浓度的提高,相对应的WLED的色坐标从(0.3272,0.3467)变化到(0.3895,0.3824),色温从5757K下降到3807K,显色指数从70.3上升到77.6,但光效略有减弱。配备了荧光粉质量分数为4‰透光罩的T8型白光LED灯管的光质更适合生菜生长。

高压水蒸气对β-Li_(2)TiO_(3:)Eu^(3+)荧光粉的全谱发光性能影响

采用水热法制备荧光粉前驱体后通过高温煅烧的方法,合成了由电偶极跃迁主导的高色纯度的β-Li_(2)TiO_(3):Eu^(3+)红色荧光粉.设计了适用于DHT11的拓扑电路,对荧光粉体湿度和温度进行测试.研究发现,高压腔体中加水量为5 mL,β-Li_(2)TiO_(3):0.5 mol%Eu^(3+)的相对湿度可达81%RH.在波长为396 nm的近紫外光激发下,β-Li_(2)TiO_(3):0.5 mol%Eu^(3+)发射由电偶极跃迁主导的613 nm的红光,荧光寿命为773.36μs,高压水蒸气处理对β-Li_(2)TiO_(3):0.5 mol%Eu^(3+)的电偶极跃迁发射峰和磁偶极跃迁发射峰位置没有变化,但发射峰强度增强并且荧光寿命降至386.81μs.高压水蒸气高压处理后的荧光粉色坐标x=0.47,y=0.51,色温为3300 K,红光色纯度为96.6%,比高压处理前显示出更优异的显色性能.高压水蒸气处理后的β-Li_(2)TiO_(3):0.5 mol%Eu^(3+)电偶极跃迁谱线强度参数Ω_(2)增加至4.21×10^(-19)cm^(2),^(5)D_(0)→^(7)F_(2)跃迁的荧光分支比β2也增加至96.9%,而量子效率η减小至57%,证实了湿度对荧光粉的发光效率具有极大的影响.

Microwave Assisted Sintering and Photoluminescence Properties of BaaSi6OleNe：Eu^2＋ Green Phosphors

Eu^2＋-doped Ba3Si6012N2 green phosphors were prepared by microwave assisted sintering method at 1275℃ for 4 h, while the counterparts using conventional solid-state reaction method were synthesized at temperature higher than 1300℃ and for to 10 h. Microwave assisted sintering could reduce the activation energy and enhance the diffu- sion rate, thus greatly improved the sintering. Moreover, the influence of Si3N4 content on phase formation, morphol- ogy, absorption, and quantum efficiency, and photoluminescence properties of phosphors were studied. As a result, the Ba3Si6OI2N2：Eu^2＋ samples sintered by microwave assisted sintering method have a higher phase purity and photo- luminescence intensity under ultraviolet excitation as compared with samples sintered in the conventional tube furnace The proposed method is a potential preparation method for the oxynitride phosphors with strong photoluminescence and high phase purity.

Tb^(3+)、Eu^(3+)离子共掺杂的MgAl_(2)O_(4)发光性能研究

采用水热辅助固相法,以Al(NO_(3))_(3)·9H_(2)O和Mg(NO_(3))_(2)·6H_(2)O为原料,尿素为沉淀剂,制备了Tb^(3+)、Eu^(3+)共掺杂镁铝尖晶石荧光粉。用X射线衍射、扫描电子显微镜对所得产物的相结构和形貌予以表征,结合荧光激发、发射光谱和CIE色度图分析了荧光粉的光致发光性能。结果表明:在一定浓度范围内,掺杂Tb3+和Eu^(3+)离子后基质MgAl_(2)O_(4)的晶体结构并未发生改变,而当引入沉淀剂后,获得了具有良好分散性的棒状颗粒,且Tb^(3+)与Eu^(3+)间的浓度变化对样品形貌的影响甚微。在此基础上,以377 nm近紫外光作为激发光源实现了可见光区由粉至红的多色可调谐发射。

Synthesis and Luminescence Improvement of CaAlSiN_(3) Phosphors Doped with Eu^(2+) and Mn^(2+) for White LEDs

Eu^(2+) and Mn^(2+) co-activated CaAlSiN_(3) red phosphors were produced using the solid-state reaction tech⁃nique in a N2 environment.Excitation spectra,emission spectra,and diffuse reflection spectra were used to study the luminescence characteristics,energy gap,and thermal stability in detail.CaAlSiN_(3)∶Eu^(2+) exhibits an extended emission band when stimulated with 450 nm blue light,which is caused by the 4f65d to 4f7 transition of Eu^(2+).Similar⁃ly,CaAlSiN_(3)∶Mn^(2+) displays a wide emission band centered at 628 nm,which results from Mn^(2+)’s transition from 4T1(4G) to 6A1(6S).When the ions of Mn^(2+)were combined into CaAlSiN_(3)∶Eu^(2+),the photoluminescence intensity of Eu^(2+ )was greatly boosted because there was energy transfer and co-emission between Mn^(2+) and Eu^(2+).Beyond that,CaAlSiN_(3)∶Eu^(2+),Mn^(2+) emerges with splendid thermostability and high quantum efficiency,the quenching temperature surpasses 300℃,and the internal quantum efficiency is determined to be around 84.9%.The white LED was pack⁃aged with a combination of CaAlSiN_(3)∶Eu^(2+),Mn^(2+),LuAG∶Ce3+ and a blue chip.At a warm white-light corresponding color temperature(3009 K) with CIE coordinates(0.4223,0.3748),the color rendering index Ra has reached 93.2.CaAlSiN_(3)∶Eu^(2+),Mn^(2+) would have great application potential as a red-emitting phosphor for white LEDs.

Eu^(3+)掺杂Y_(2)MgTiO_(6)红色荧光粉的制备及发光性质研究

采用溶胶-凝胶法制备出Y_(2-2 x)MgTiO_(6)∶2 x Eu^(3+)(YMT∶2 x Eu^(3+),0≤x≤0.11)新型红色荧光粉。通过X射线衍射仪(XRD)检测样品的纯度,结果显示YMT∶Eu^(3+)样品属于单斜晶系,空间群为P21/n,无其他杂相。扫描电子显微镜(SEM)照片显示荧光粉为2μm的不规则颗粒。当激发波长为264 nm时,发射光谱出现四个尖锐的发射峰,分别位于591(^(5)D_(0)→^(7)F_(1))、619(^(5)D_(0)→^(7)F_(2))、657(^(5)D_(0)→^(7)F_(3))和693 nm(^(5)D_(0)→^(7)F_(4))。Eu^(3+)离子之间能量传递为电偶极子-电偶极子(d-d)相互作用。YMT∶0.14Eu^(3+)荧光粉的CIE色度坐标为(0.645,0.332),与红光标准色坐标(0.67,0.33)非常接近。变温PL光谱及热激活能计算结果显示荧光粉具有一定的热稳定性,因此YMT∶Eu^(3+)是一种具有潜在应用价值的LED红色荧光粉。

新型红色荧光粉Sr_(3)CaNb_(2)O_(9):Sm^(3+),Eu^(3+)的发光特性和能量传递分析

利用高温固相反应法制备一系列单基质荧光粉Sr_(3)CaNb_(2)O_(9):xSm^(3+),yEu^(3+)(x=0.04~0.09,y=0.03~0.15),并对样品的物相形貌、发光性能、能量传递机制和CIE色坐标进行分析。研究表明,Sr_(3)CaNb_(2)O_(9):xSm^(3+)荧光粉在激发波长为407 nm时的浓度淬灭点为x=0.07。在Sr_(3)CaNb_(2)O_(9):0.07Sm^(3+),yEu^(3+)荧光粉中,随着Eu^(3+)掺杂浓度的增加,Sm^(3+)的发光强度降低而Eu^(3+)发光强度却先增加后降低,Eu^(3+)的浓度淬灭点为y=0.09。Sm^(3+)→Eu^(3+)的能量传递以电偶极-电偶极相互作用为主,能量传递效率达到76.6%。色坐标图表明Eu^(3+)离子的加入可使色坐标从橙红色区域向纯红色区域移动。此外,样品还具有较高的色纯度和较低的色温。结果表明,Sr_(3)CaNb_(2)O_(9)∶Sm^(3+),Eu^(3+)荧光粉有望成为白光LED发出红光物质的候选材料。

Enhanced Emission of Eu^(3+) in Boron Ions-Doped Sol-Gel SiO_2 Phosphors

Al-doped and B, Al-codoped silica xerogel was fabricated by sol-gel process. The influence of B ions and annealing temperature on luminescent properties of phosphors were studied by using fluorescence spectrum, X-ray diffraction, DSC, TG/DTG analysis and IR spectrum. The heat treatment has a large effect on the luminescent properties. Under 248 nm excitation, the emission spectrum of samples heated shows characteristic emission peaks of Eu^3＋ ions are, which are due to the transitions of ^5D0→^7FJ（J = 0, 1, 2, 3, 4） of Eu^3＋ , respectively. The transition of ^5D0→^7F1 is split into two peaks.

Sr_(2)MgSi_(2)O_(7)∶Eu^(2+),Eu^(3+)发光性能及颜色调控

采用静电纺丝法在不同气氛下制备了Sr_(2)MgSi_(2)O_(7)∶Eu^(2+),Eu^(3+)纤维,研究其晶体结构和形貌;将纤维与聚二甲基硅氧烷(PDMS)复合后获得Sr_(2)MgSi_(2)O_(7)∶Eu^(2+),Eu^(3+)‐PDMS复合材料,研究其光致发光和应力发光性能。研究结果显示,氮气、空气下制备样品的XPS图谱同时出现Eu^(2+)和Eu^(3+)结合能特征峰;在360 nm和395 nm激发下复合材料的光致发光光谱中,不但有Eu^(2+)位于469 nm处的蓝色宽带发射,还包含Eu^(3+)位于615 nm的多个红色窄带发射。因为Eu^(3+)在电荷补偿下还原成Eu^(2+)并在刚性结构保护下不被氧化,证实了Eu^(3+)在Sr_(2)MgSi_(2)O_(7)中的自还原现象。随着Eu^(3+)的掺杂浓度增大,光致发光和应力发光强度都先增大后减小,Eu^(2+)和Eu^(3+)的发射分别在5%和10%时达到最强。应力发光强度与应力的增长是线性关系,Eu^(2+)的发射增长量大于Eu^(3+)。在实物照片和CIE坐标中观测到光致发光颜色从蓝色逐渐接近红色,应力发光颜色在应力增大时逐渐从粉红色变为紫粉色。该材料的研究将为发光调控提供参考,在应力传感和防伪等领域有着潜在的使用价值。

电子束蒸镀制备Y_(2)O_(3)∶Eu^(3+)红色发光织物及其性能研究

针对目前长波段红色发光织物制备方法存在的不足,采用电子束蒸镀在石英纤维织物表面沉积三价铕离子掺杂氧化钇(Y_(2)O_(3)∶Eu^(3+))红色发光薄膜,研究80 mA、110 mA、140 mA和170 mA不同电子束电流对发光薄膜微观结构和发光性能的影响。结果表明:电子束蒸镀能够在石英纤维表面均匀沉积纯度较高的Y_(2)O_(3)∶Eu^(3+)发光薄膜,且发光粉材料组分不会改变;随着沉积电流从110 mA增加到170 mA,薄膜厚度由0.69μm增加到1.68μm;当电流为140 mA时,发光薄膜相对更加致密、颗粒尺寸较大,在(222)晶面择优取向并且符合Y_(2)O_(3)立方相结构,结晶性能较好;Y_(2)O_(3)∶Eu^(3+)薄膜在613 nm处存在Eu3+的特征红色发射主峰,当沉积电流为140 mA时制备的Y_(2)O_(3)∶Eu^(3+)薄膜发光强度最高。认为:采用电子束蒸镀制备的Y_(2)O_(3)∶Eu^(3+)红色发光织物属于长波段红色发光纺织材料,但其发光强度仍较低、发光余辉时间较短,还需提高发光性能。

Eu^(3+)掺杂β-Ga_(2)O_(3)的水热法制备及其光学性能

采用高温水热法合成稀土Eu3+掺杂β-Ga_(2)O_(3)荧光粉,研究不同热退火温度对其发光性能的影响。利用X射线衍射仪对样品的物质结构信息进行表征,样品衍射峰发生小角度偏移,表明Eu^(3+)进入β-Ga_(2)O_(3)晶格中。通过拉曼光谱仪对样品的物质结构和组态进行检测,样品的拉曼峰与β-Ga_(2)O_(3)结构的拉曼峰位置一致,并在800℃达到最大峰值,说明此温度下样品的结晶度最好。使用扫描电子显微镜对样品的表面形貌进行观测,不同热退火温度下荧光粉颗粒分布均匀,表明热退火处理后样品的结晶质量良好。在395 nm波长激发光谱作用下,可以看到2种不同的发射光谱,591 nm处为Eu^(3+)(^(5)D_(0)→^(7)F_(1))跃迁产生的橙光发射,612 nm处为Eu^(3+)(^(5)D_(0)→^(7)F_(2))跃迁产生的红光发射,并以发射红光为主。随着退火温度的不断升高,样品的发射光谱强度先增大后减小,并在800℃下达到最大值,表明热退火温度为800℃时荧光粉样品的发光效果最好。水热法合成工艺简单且成本低廉,合成的样品纯度高。高温热退火处理可通过应力作用减少材料中的缺陷,提高结晶度,从而提升荧光粉的发光性能。

具有持续反应活性的g-C_(3)N_(4)/Sr_(2)MgSi_(2)O_(7):Eu^(2+),Dy^(3+)复合材料的光学-催化行为研究

为促进环境友好型光催化技术的应用推广,通过热解聚合方式将g-C3N4负载于多孔Sr_(2)MgSi_(2)O_(7):Eu^(2+),Dy^(3+)蓝色长余辉荧光粉上,制备具有持续反应活性的g-C_(3)N_(4)/Sr_(2)MgSi_(2)O_(7):Eu^(2+),Dy^(3+)复合材料。首次采用累积污染物降解效率等一系列指标评价材料在光照及暗态下综合去除污染物效果。通过微观表征手段和NO去除试验研究了单组分复配质量比对复合材料的光学及催化性能的影响。结果表明,g-C_(3)N_(4)的复合对Sr_(2)MgSi_(2)O_(7):Eu^(2+),Dy^(3+)的荧光强度和余辉性能产生了不利影响;但光照下,提高的光生载流子分离效率和光吸收能力使复合材料的光催化活性增强;暗态下,内在光源Sr_(2)MgSi_(2)O^(7):Eu^(2+),Dy^(3+)的存在赋予了复合材料持续去除NO的能力,该能力的持续时间与余辉亮度、光催化活性有关。本研究有助于推动持续活性光催化体系的发展。

Bi^(3+)、Eu^(3+)共掺双钙钛矿Gd_(2)ZnTiO_(6)荧光粉制备及其温度传感性能

采用高温固相法制备了一系列具有双发射中心的Gd_(2(1-x-y))ZnTiO_(6)∶xBi^(3+),y Eu^(3+)荧光粉。采用X射线衍射、扫描电子显微镜、荧光光谱、寿命衰减曲线和变温发射光谱等方法,系统地研究了该材料的结构、发光性能和温度传感特性。在Gd_(2)ZnTiO_(6)∶Bi^(3+),Eu^(3+)荧光粉中,Bi^(3+)和Eu^(3+)离子占据了Gd^(3+)离子的位置。在紫外激发下,Eu^(3+)的激发光谱和Bi^(3+)的发射光谱存在光谱重叠,表明从Bi^(3+)到Eu^(3+)可能存在能量传递。通过荧光强度比技术探究了Bi^(3+)蓝光发射与Eu^(3+)红光发射的不同温度响应特性。在293~473 K温度范围内,测得Gd_(2)ZnTiO_(6)∶Bi^(3+),Eu^(3+)荧光粉的最大相对温度灵敏度为1.133%·K^(-1),最大绝对灵敏度为0.73%·K^(-1)。因此,Gd_(2)ZnTiO_(6)∶Bi^(3+),Eu^(3+)荧光粉是一种有潜力的非接触式光学测温材料。

空心和多孔Y_(2)O_(3):Eu^(3+)微球的超声喷雾热解法可控合成及其光致发光性能

以蔗糖或柠檬酸为辅助剂,通过改变超声喷雾热解期间雾滴中溶剂的蒸发方式和溶质聚集状态,进行空心和多孔Y_(2)O_(3):Eu^(3+)微球的可控合成。探究了辅助剂的种类和比例对微球形貌的影响,提出了空心和多孔Y_(2)O_(3):Eu^(3+)微球形成机制,并分析了空心和多孔Y_(2)O_(3):Eu^(3+)微球的晶体结构及光致发光性能。结果表明:Y_(2)O_(3):Eu^(3+)微球组分均匀,仍保留立方Y2O3结构;添加蔗糖后可获得中空结构,添加柠檬酸则为多孔结构,这归因于添加的蔗糖在雾滴干燥时络合成膜,水分透过膜蒸发,溶质沉积在膜内壁形成空心球壳,而添加的柠檬酸则与溶质形成均匀的螯合物,在高热解温时产生大量原位介孔;空心和多孔Y_(2)O_(3):Eu^(3+)微球均在611 nm处表现出典型的红光发射,且空心微球的发光强度可达不添加辅助剂合成的实心微球的96.6%。该研究可为大规模产业化合成形貌可控的空心和多孔Y_(2)O_(3):Eu^(3+)微球提供参考。

Eu^(3+)掺杂诱导CsAgCl_(2)相变及其光学温度传感性质

相变是调节材料性能的一种有效方法,在介电、光电、光致发光等领域有着广泛的应用。本文采用水热法合成未知相CsAgCl_(2),并通过升温和Eu^(3+)掺杂将CsAgCl_(2)从未知相转变为正交相。制备的Eu^(3+)掺杂的CsAgCl_(2)具有较高的光学温度灵敏度,在荧光强度模式和荧光寿命模式下的最大相对灵敏度分别为3.63%·K^(-1)和3.20%·K^(-1)。结果表明,CsAgCl_(2)是一种很有前途的高灵敏度光学温度传感材料。