纳米SrAl2O4:Eu2+,Dy3+长余辉发光材料的制备与性能

采用水热-均匀共沉淀法制备了纳米SrAl2O4:Eu2+,Dy3+长余辉发光材料.通过XRD、TEM、荧光光谱、热释光谱对其结构和性能进行分析.XRD结果表明所制备的SrAl2O4:Eu2+Dy3+纳米发光材料为单相,属单斜晶系.TEM测试表明纳米SrAl2O4:Eu2+,Dy3+发光材料为规则的球状粒子,粒径为50～80 nm,且分散性良好.激发和发射光谱测试表明,样品的激发光谱是峰值在356 nm 的连续宽带谱,发射光谱是峰值位于512 nm的宽带谱,与SrAl2O4:Eu2+,Dy3+粗晶材料相比,激发和发射光谱都出现了"蓝移"现象.样品的热释光峰值位于358 K,适合于产生长余辉.     

Gd2O3:Eu3+ X射线溶胶-凝胶发光薄膜的制备与表征

高分辨率X射线成像系统要求其发光材料同时具有X射线截止本领强、光产额高、余辉短以及与光电器件波长匹配好等特性. Gd2O3:Eu3 因其优越的发光性能和Eu3 红光发射等优点而在高能射线激发发光材料中占有重要地位. 近几年发展起来的透明X射线薄膜发光材料具有更高的衬度和空间分辨率、热传导率、均匀性和附着力等优点[1], 因而有望成为取代传统荧光粉的新一代X射线成像材料. 在各种薄膜制备工艺中, 溶胶-凝胶法以其价格低廉、工艺简单、制备温度低、均匀性好、可实现微量掺杂等优点而日益受到人们重视, 通过该方法并辅以适当的后处理工艺可制备出透明、致密的薄膜.     

核壳型Gd2O3:Eu3+@Y2O3纳米发光材料的制备与发光性能

采用均相沉淀法制备了均匀球形的Gd2O3:Eu3+@Y2O3核壳结构纳米发光材料.XRD结果表明经过800℃焙烧后样品为立方晶系的Gd2O3,并且晶体发育良好,包覆Y2O3之后Gd2O3的衍射峰位置无明显变化,但随着包覆厚度的增加,出现了立方晶系Y2O3的衍射峰.FTIR谱图观测到了Gd-O,Y-O伸缩振动吸收峰,随着包覆厚度的减少吸收峰增强,认为当包覆层的厚度适当时,颗粒表面的悬空键(断键)变少,Gd(Eu,Y)-O键增多所致.SEM表明包覆前后样品为均匀分散的球形结构.XPS分析进一步证明了表面包覆上了Y2O3.荧光光谱表明:纳米Gd2O3:Eu3+表面包覆不同厚度的基质Y2O3后,均观测到Eu3+离子的特征红光发射,当包覆厚度R=4:1时的发光强度比未包覆的Gd2O3:Eu3+增强,认为核-壳型样品降低了纳米Gd2O3:Eu3+的表面效应给发光强度带来的负面影响.     

稀土Y2-xSiO5∶Eux3+纳米发光材料结构对发光性能影响及发光机理研究

用溶胶凝胶法合成了Y_2-xSiO₅∶Eu_x纳米发光材料，使用XRD、FTIR和TEM对其结构进行了表征。讨论了相结构、煅烧温度和Eu³⁺掺杂浓度对材料发光性能的影响及规律。结果显示煅烧温度在900 ℃以下，材料主要呈非晶相结构，900 ℃以上材料主要呈晶态结构；颗粒随煅烧温度升高而增大，在非晶态时颗粒大小在15～45 nm，在晶态时颗粒大小为60～80 nm。激发光谱和荧光发射光谱受材料晶相结构以及Eu³⁺掺杂浓度的影响，在晶态结构中Y_2-xSiO₅∶Eu_x纳米材料呈现更精细的激发和发射光谱。在激发光谱中，电荷转移态吸收(CST)随煅烧温度升高呈现兰移现象，晶态时CST同非晶态相比明显红移；在发射光谱中，非晶态时 ⁵D₀→ ⁷F₂跃迁呈现强的发光峰，随材料制备温度升高而增强，在晶态时该发光峰强度减弱，在长波波段呈现两个新的发光尖峰，并随煅烧温度升高而增强； ⁵D₀→ ⁷F₁发射峰从非晶态转变为晶态后，光谱裂分为三重尖峰；而 ⁵D₀→ ⁷F₀跃迁发光光谱受结构和颗粒大小影响较小。同时在60～80 nm的Y_2-xSiO₅∶Eu_x晶体中，发现材料 ⁵D₀→ ⁷F₂和 ⁵D₀→ ⁷F₁跃迁发光强度，均受Eu³⁺掺杂浓度的影响，当掺杂浓度x=0.4时，材料发光强度最大。     

纳米晶Y_2O_3∶Eu~(3+)的合成及其热分析动力学

以Y(NO3)3、Eu2O3、CO(NH2)2为原料,使用超声波作用下的均匀沉淀法合成了纳米晶荧光粉Y2O3∶Eu3+。利用不同升温速率的热重及差热分析研究了纳米晶Y2O3∶Eu3+的合成动力学及晶粒生长动力学。研究表明,纳米晶Y2O3∶Eu3+的前驱体分解过程可分为3个步骤,利用Doyle-Ozawa法和Kissinger法分别计算了各个反应阶段的表观活化能,用Kissinger法确定每个反应阶段的反应级数和频率因子,并给出了各个阶段的动力学方程。根据晶粒生长动力学理论计算纳米荧光粉Y2O3∶Eu3+晶粒生长活化能为17.80kJ·mol-1,表明热处理过程中纳米晶粒的长大为扩散生长机制。     

Sr2SiO4:Eu3+发光材料的制备及其光谱特性

采用溶胶-凝胶法制备了Sr2SiO4:Eu3+发光材料. 测量了Sr2SiO4:Eu3+材料的激发与发射光谱, 发射光谱主峰位于618 nm处;监测618 nm发射峰时, 所得激发光谱主峰分别为320、397、464 和518 nm. 研究了Sr2SiO4:Eu3+材料在618 nm的主发射峰强度随Eu3+浓度的变化情况. 结果显示, 随Eu3+浓度的增大, 发射峰强度先增大; 当Eu3+浓度为7%时(x), 峰值强度最大; 而后随Eu3+浓度的增大, 峰值强度减小. 在Eu3+浓度为7%的情况下, 研究了电荷补偿剂Li+的掺杂浓度(x(Li+))对Sr2SiO4:Eu3+材料发射光谱强度的影响. 结果显示, 随x(Li+)的增大, 材料发射光谱强度先增大后减小, 当x(Li+)为8%时, 峰值强度最大.     

功能化荧光素掺杂二氧化硅纳米粒子用于免疫层析试验

A simple but effective approach was developed to synthesize amino functionalized fluorescein isothiocyanate-doped silica nanoparticles based upon polycondensation of tetraethoxysilane. Organic dye molecule (fluorescein isothiocyanate) coupled with a silane coupling agent, 3-aminopropyltriethoxysilane, was incorporated into silica sphere through controlled hydrolysis and polymerization of tetraethoxysilane. The dye was connected with silica sphere through 3-aminopropyltriethoxysilane, which avoided the leakage of the dye. The cohydrolysis and polymerization of tetraethoxysilane and 3-aminopropyltriethoxysilane outside the surface of the silica sphere formed another thin silica shell with the functionalized amino groups on the surface. With amino groups on the surface, the nanoparticle surface was affluent in positive charges. The amino-functionalized nanoparticles were linked with mouse monoclonal antibody against hepatitis B virus surface antigen through electrostatic interaction to form fluorescence probes, which were tested by immunochromatographic assay using immunochromatography test strip. It was indicated that the fluorescence probe was suitable for immunoassay.     

掺杂表面活性剂及金属离子对纳米Y2O3:Eu3+粉体的发光性能的影响

采用草酸沉淀法,通过填加表面活性剂四丁基溴化铵、十六烷基三甲基溴化铵和金属离子K+,Mg2+,Ba2+,制备出稀土发光材料Y2O3Eu3+,利用XRD与激发和发射光谱等测试手段对样品的结构与光学性能进行了表征,考察了同时加入不同表面活性剂和金属离子对Y2O3Eu3+的结构和发光性质的影响.结果表明加入表面活性剂和金属离子对发光材料Y2O3Eu3+的发光性能有较大的影响,其中以同时加入四丁基溴化铵和Ba2+以及加入十六烷基三甲基溴化铵和Mg2+对Y2O3Eu3+粉体的发光性能影响最大.     

Sr3SiO5:Eu2+荧光粉的微波合成及性能研究

0 引 言 白光LED是一种具有广阔前景的节能照明灯具,被誉为人类的第四代照明用灯具.白光LED实现主要有两种方案,其中在蓝光LED芯片上涂覆黄色荧光粉,蓝光芯片发出的蓝光与荧光粉发出的黄光复合而获得白光,受到人们的重点关注[1-5].     

稀土红色荧光粉SrZnO2∶Eu3+的发光性能

A series of novel luminescent materials, SrZnO₂∶M (M=Eu³⁺, or Eu³⁺ + Li⁺) have been synthesized by high-temperature solid-state reaction. The structure and luminescence properties of SrZnO₂∶Eu³⁺ phosphor were studied through XRD, photoluminescence and Raman spectroscopy. The excitation spectra show a broad intense band and a number of small peaks corresponding to the inner 4f-shell excitations of Eu³⁺ (the strongest one is at 395 nm for ⁷F₀-⁵L₆). After SrZnO₂∶Eu³⁺ phosphor was co-doped with Li⁺ ions, its charge transfer band extended to longer wavelengths. This resulted in increase of luminescent quantum efficiency of the sample. SrZnO₂∶Eu³⁺,Li⁺ phosphor can be efficiently excited by longer UV. From the fluorescence spectrum of SrZnO₂∶Eu³⁺ phosphor, apart from transition emissions of ⁵D₀→ ⁷F_J (J=0～4), the transition emissions from ⁵D₁ → ⁷F_J (J=0～2) have been observed. For the SrZnO₂∶Eu³⁺ phosphor, under excitation of UV, the dominant emission is at about 612 nm, due to the ⁵D₀→ ⁷F₂ hypersensitive transition. The incorporation of Li⁺ ions greatly enhanced the luminescence intensity and made emission peak from ⁵D₀ → ⁷F₂ transition red-shifted.     

CaAl12O19基质中Eu2+-Cr3+的能量传递与发光性质

在还原气氛下高温固相法合成了CaAl12O19:Eu2+,Cr3+荧光粉.样品光谱显示:Eu2+发射带与Cr3+吸收带有重叠,具备Eu2+-Cr3+之间发生能量传递必要条件.在290 nm近紫外光激发下,单掺杂Eu2+和Cr3+时样品均无691 nm发射,仅在Eu2+,Cr3+共掺时才出现691 nm发射,这证明Eu2+和Cr3+之间发生了能量传递,且监测691 nm时样品的激发光谱也证实了这一点.CaAl12O19:1%Eu2+,x%Cr3+样品组的发射光谱研究表明:增大x能提高Cr3+红光与Eu2+蓝紫光发射强度之比及Eu2+-Cr3+之间能量传递效率.CaAl12O19:2%Cr3+,x%Eu2+样品组的激发光谱分析表明:x>2时,Cr3+在415 nm处的吸收效率相对于565 nm有显著提高.还对样品CaAl12O19:1%Eu2+,1%Cr3+荧光寿命和能量传递速率进行了简单分析.     

水热法制备具有光滑表面的球形Y2O3∶Eu3+发光材料

The spherical Y₂O₃∶Eu³⁺ luminescent particles with size of 0.5～3 μm and smooth surface were synthesized by hydrothermal method. The resulted Y₂O₃∶Eu³⁺ precursors and the calcined particles were characterized by differential thermal analysis (DTA) and thermogravimetric (TG) analysis, X-ray diffraction (XRD), Fourier-transform IR spectroscopy (FTIR), scanning electron microscopy (SEM) and photoluminescence spectra (PL). FTIR, TG-DTA, XRD measurements show that the precursors are crystal with hydroxyl and carbonate group, and the pure cubic yttria is obtained after annealing above 700 ℃. The SEM images indicate that the Y₂O₃∶Eu³⁺ particles are in spherical shape and with smooth surface. PL analysis shows that the particles present characteristic red emission of Eu³⁺.     

Y2O3:Eu荧光粉表面包覆In2O3的研究

采用高温固相法合成了FED用Y2O3：Eu红色荧光粉，为提高其导电性，采用表面成膜包覆法对其进行了In2O3包膜研究。通过XRD，Zeta电位，SEM及低压光谱分析等检测手段分析了包膜前后Y2O3：Eu的晶体结构、电位、形貌与发光性能，探索了包膜工艺。结果表明：在Y2O3：Eu表面包覆3％的In2O3能有效改善荧光粉的发光亮度，这种改善的可能原因是包覆In2O3改善了Y2O3：Eu晶粒表面的导电性。     

蓝色长余辉材料CaAl2O4:Eu2+,Nd3+的合成及其发光性能

采用高温固相法合成了系列单相Ca(1-x-y)Al2O4:Eu2+x,Nd3+y(0≤x≤0.045,0≤y≤0.0037)粉末样品,并表征了其发光特性.研究结果表明,样品的发射光谱为最大发射峰位于440nm的宽带谱,属于Eu2+的4f65d→4f7跃迁.通过对Eu2+,Nd3+掺杂量与样品发光性能之间关系的研究发现,Eu2+和Nd3+最佳掺杂量分别为x=0.00125和y=0.0025,并且Nd3+对改善蓝色长余辉材料CaAl4:Eu2+的余辉性能具有重要的作用.在最佳掺杂条件下,样品的余辉时间可达1000min,初始亮度大于1200mcd/m2,60min后发光粉的亮度仍然在10mcd/m2以上.利用正电子湮灭技术和热释光技术,研究了Eu2+和Nd3+对CaAl2O4:Eu2+,Nd3+材料的发光性能的影响.     

A Novel Synthesis of Alkaline Earth Silicate Phosphor Sr3MgSi2O8： Eu^2＋, Dy^3＋

A novel method for synthesizing long afterglow silicate phosphor Sr3MgSi2O8：Eu^2＋,Dy^3＋using TEOS and inorganic powders as reactants was reported. Acetic acid as a catalyzer controlled the hydrolysis of TEOS by adjusting pH value of the system. The morphologies of precursor were characterized by transmission electron microscope （TEM）. The structure and optical properties of the phosphor powders were systematically investigated by means of X-ray diffraction and spectrofluorometry. TEM images have reflected the core-shell structure and quasi-spherical morphology of the precursor particles. It was found that the single-phase Sr3MgSi2O8 crystalline structures were obtained at 1050 and 1250 ℃ for the samples prepared with the nano-coating method and the solid state reaction, respectively. The emission intensities of the phosphors prepared by the present method were higher than those by the conventional process. Also, the afterglow characteristic was better than that prepared by solid-state reaction in the comparable condition.     

长余辉材料Sr2MgSi2O7:Eu2+,Dy3+的制备及发光性能研究

在碳粉还原条件下,采用高温固相法制备出了亮度高、余辉时间长的Sr2MgSi2O7Eu2+,Dy3+长余辉发光材料,并对其性能以及影响其发光性能的因素进行了研究.发光粉体还原后的发射光谱表明,其主发射峰位于463 nm左右;余辉衰减曲线证明其余辉衰减过程存在快速衰减和慢衰减两个过程.     

碱土金属离子(Mg2+,Ca2+,Ba2+)掺杂对长余辉荧光粉SrAl2O4:Eu2+,Dy3+发光性能的影响

采用高温固相法制备了碱土金属离子(Mg2 ,Ca2 ,Ba2 )掺杂的SrAl2O4:Eu2 ,Dy3 长余辉荧光粉.XRD谱分析表明,随着基质中掺人的碱土金属离子(Mg2 ,Ca2 ,Ba2 )浓度增加,基质晶格常数也随之发生变化.Mg2 ,Ca2 和Ba2 3种碱土离子在SrAl2O4中的固溶范围分别为40%,15%和30%.光谱分析则表明在固溶范围内随着掺杂Mg3 ,Ca2 和Ba2 浓度的增大,样品的发射峰值会在480～530 nm范围出现规律性移动.适当浓度的Mg2 ,Ba2 掺杂会不同程度地提高样品的发光强度,而Ca2 的掺杂则会降低发光强度.但是碱土金属离子(Mg2 ,Ca2 ,Ba2 )的掺杂并不能延长SrAl2O4:Eu2 ,Dy3 荧光粉的余辉时间.     

Synthesis and Photoluminescence Properties of Uniform Y2O3:Eu3+ Hollow Spheres with Tunable Shell Thickness

Y2O3:Eu3+ hollow spheres were successfully prepared with melamine formaldehyde(MF) spheres as template. The MF spheres played a significant role in directing the formation of the hollow shells which are composed of numerous primary nanoparticles. Furthermore, the shell thickness of these hollow spheres could be readily tailored by adjusting the dosage of MF template. Based on the photoluminescence(PL) investigation, the red emission intensities(613 nm) of these Y2O3:Eu3+ hollow spheres are greatly influenced by their shell thickness and it was found that hollow spheres with thin shell thickness and intact hollow structures permit a better PL performance.     

Fe3O4@Gd2O3:Eu3+磁光双功能复合粒子的制备与表征

采用水热法合成了Fe3O4@Gd2O3:Eu3+核壳结构磁光双功能复合粒子,对其结构和性能进行了表征.XRD分析表明:700℃煅烧后Fe3O4表面包覆上了结晶良好的立方晶系的Gd2O3:Eu3+.TEM照片表明:所得的复合粒子具有明显的核壳结构和完美的球形,构成核的Fe3O4颗粒的尺寸在200～300 nm之间,Fe3...     

掺铕Y2O3发光薄膜的制备及发光性能

溶胶-凝胶法;荧光;掺铕Y2O3发光薄膜的制备及发光性能