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1.
采用柠檬酸燃烧法制备了稀土TB3 掺杂的CaLa1-xAl3O7:xTb3 发光材料的前驱粉末,在低于700℃退火处理时,得到非晶态样品,而高于800℃退火处理后为纯相的CaLa1-xAl3O7:xTb3 粉末样品.通过三维荧光光谱、激发光谱和发射光谱研究了Tb3 在CaLaAl3O7基质中的发光性能及Tb3 掺杂量、退火温度和柠檬酸与金属离子的配比等对发光强度的影响.结果显示.非晶态和晶态CaLa1-xAl3O7:xTb3 品都可发光,在240 nm波长光的激发下,CaLaAl3O7:Tb3 粉体产生Tb3 的特征发射峰,归属于5D4-7FJ(J=6,5,4,3)跃迁,主发射峰位置均在543 nm处(5D4-7F5跃迁),随着粉末逐渐成相5D4-7F5跃迁明显增强.  相似文献   

2.
采用高温固相法成功制备了KNaCa2(PO4)2:Tb3+绿色荧光粉,并研究了其发光性质。测量了其激发和发射光谱,样品发射峰位于418,440,492,545,586,622 nm,分别对应Tb3+的5 D3→7 F5,5 D3→7 F4,5 D4→7 F6,5 D4→7 F5,5 D4→7 F4,5 D4→7 F3能级跃迁,主发射峰位于545 nm。主激发峰位于350~390 nm之间,属于4f→4f电子跃迁吸收,与InGaN管芯匹配。确定了在KNaCa2(PO4)2基质中Tb3+浓度对其发光强度的影响及其自身浓度猝灭机制。研究了不同电荷补偿剂对KNaCa2(PO4)2:Tb3+材料发光的影响,其中Li+离子改善其发光强度最为明显。  相似文献   

3.
采用高温固相法合成了Ba2-xB2O5:xTb3+绿色荧光粉。XRD图谱表明合成物质为纯相的Ba2B2O5晶体。该样品在256 nm(4f8→4f75d1)处有最强激发;有4个发射峰,分别位于489 nm(5D4→7F6),545 nm(5D4→7F5),585 nm(5D4→7F4)和622 nm(5D4→7F3);其中在545 nm处有最强发射。随着Tb3+掺杂浓度的不同,激发峰与发射峰的强度先增大后减小,当x=0.7时最佳。研究了电荷补偿剂Na+对发光性能的影响,样品的发射光谱强度随Na+掺杂浓度的增大而增大,当掺杂浓度达到或超过Tb3+浓度后发射光谱强度下降。  相似文献   

4.
高温溶制了Eu^3+掺杂SiO2-Al2O3-B2O3-MxOy(M=Li^+,Na^+,K^+,Mg^2+,Ca^2+,Sr^2+,RE^3+)硼硅酸盐玻璃,测试了玻璃样品的发射光谱、激发光谱和透射光谱,研究了不同碱金属离子、碱土金属离子对该系统荧光性能的影响。利用发射光谱计算了Ω2,Ω4以及^5D0到^7F2,^7F4的自发辐射几率和振子强度f(^5D0→^7F2),f(^5D0→^7F4)。结果表明,材料的发射能级为^5D0→^7F1(590nm),^5D0→^7F2(617nm),^5D0→^7F4(698nm),而且材料的结构对称性越差,跃迁戒律打破地越彻底,荧光发射越强。  相似文献   

5.
溶胶-凝胶法制备掺Sm3+的SiO2玻璃的结构及发光性能   总被引:1,自引:0,他引:1  
利用溶胶-凝胶技术制备了掺不同量Sm3+和不同退火温度下的SiO2凝胶和玻璃,通过三维荧光光谱、激发光谱、发射光谱的测试,确定了Sm3+在SiO2凝胶玻璃中的最佳激发波长为360 nm,最强发射波长为610 nm,激发光谱的峰位置在360、393、464 nm处,发射光谱的峰位置在578、591、595、610、732nm处,分别归属于4G5/2-6H5/2、4G5/2-6H7/2、4G5/2-6H11/2跃迁,并证明当掺杂量达到1.15%时,Sm3+的发光最强,当Sm3+的掺杂量超过1.15%时,发生浓度猝灭效应.  相似文献   

6.
采用静电纺丝技术结合高温煅烧工艺,制备了稀土铽离子掺杂的氧基磷灰石型硅酸盐[Ca2Y8(SiO4)6O2:Tb3+]荧光纳米纤维。利用XRD,FT-IR,TG-DTA,SEM,HRTEM和荧光光谱仪等分析测试手段对样品的组成、结构和性能进行了表征。结果表明:前驱体纤维经800℃煅烧4 h后,获得的Ca2Y8(SiO4)6O2:Tb3+荧光纳米纤维,属于六方晶系,P63/m空间群,其平均直径为100 nm。在245 nm的紫外光激发下,Tb3+的发射光谱由蓝光区和绿光区两部分组成,前者在382,417和438 nm处的发射峰对应于Tb3+的5D3→7FJ(J=6,5,4)跃迁;后者在489,545,590和622 nm处的发射峰对应5D4→7FJ(J=6,5,4,3)跃迁,其中以5D4→7F5(545 nm)跃迁的发射峰为最强,呈现绿光特性,Tb3+的光致发光衰减曲线符合单指数行为,其荧光寿命达2.65 ms。  相似文献   

7.
利用溶胶-凝胶技术制备了掺不同量Eu^3 和不同退火温度下的SiO2凝胶和玻璃,通过在不同退火温度下样品的激光发谱,发射光谱,红外光谱和差热-热重曲线,研究了掺Eu3 的SiO2玻璃材料的结构和发光性能,结果显示,当Eu3 的掺杂量大于1.86%(质量分数),Eu^3 的发光强度趋于稳定,当样品的退火温度大于300度时,SiO2凝胶玻璃中吸附的水已基本除净,此时显示出Eu^3 的特征发射光谱,谱带位置分别是614,596,577nm,分别归属于^5Do-7F2,5D0-7F1,^5D0-^7F0跃迁,对应的激光发光谱显示6个峰,位置分别是318,362,380,393,412,462nm,说明300-500度是凝胶向玻璃转变的关键温度,而水对Eu^3 的发光有强烈的淬灭作用。  相似文献   

8.
以强碱性阴离子交换树脂为交换介质,采用离子交换法制备了稀土Tb3+离子掺杂的ZrO2:Tb3+纳米晶.通过XRD,TG-DSC,TEM,HRTEM等手段分析了样品制备过程的物相变化及晶粒形貌,用荧光光度计研究了样品的三维荧光光谱、激发光谱和发射光谱.结果表明:前驱沉淀物经800℃焙烧处理2 h,制备出近方型形貌,颗粒分散性好、尺寸约为40 nm的四方相ZrO2:Tb3+纳米晶.当焙烧温度升高到900℃以上时样品出现了少量单斜晶相,而经800℃焙烧处理的纯Zr02是以四方相和单斜相同时存在.说明稀土Tb3+离子的掺杂对ZrO2基质的四方晶相起到稳定作用.由ZrO2:Tb3+)的等角三维荧光光谱图显示Tb3+在ZrO2基质中的最佳激发波长为290 nm:在290 nm波长光的激发下观察到纳米ZrO2中Tb3+的发射峰位于491,545,582 nm分别对应于Tb3+的5D4→7F6、5D4→7F5、5D4→7F4、5D4→7F4能级跃迁,以491,545nm的发射峰最强,其中经800℃焙烧处理的样品其5D4→7F6跃迁发射与5D4→7F5跃迁发射强度几乎相同,说明该法制备的纳米ZrO2:Tb3+中5D4→7F6跃迁发射增强,使Tb3+发光的蓝色成分增加了.  相似文献   

9.
采用溶胶-凝胶技术 ,制备了不同退火温度下掺 Tb3+的 SiO2玻璃 ,掺 Tb3+的凝胶玻璃在 448,544,585,620 nm显示 Tb3+的 5D4- 7FJ(J=3,4,5,6)的特征发光光谱 .通过不同退火温度下样品的激发光谱、发射光谱、红外光谱、远红外光谱及差热-热重谱研究了掺 Tb3+的硅基材料由凝胶向玻璃转变过程中的结构变化及对 Tb3+发光性能的影响 .结果显示 ,在 50~ 100℃退火温度下 ,凝胶大部分吸附水分子被除去 ,在 150~ 500℃退火温度区 ,是凝胶向玻璃转变的主要结构变化区 ,并且其发光强度也明显增加 ,到 800℃时趋于稳定 .这些现象得出一个结论 ,Tb3+的发光跃迁被 O- H基强烈猝灭而随退火温度的升高而加强 .  相似文献   

10.
硼离子对铕掺杂SiO2干凝胶发光性能的影响   总被引:3,自引:0,他引:3  
采用溶胶-凝胶法制备了Al单掺和B,Al共掺的Eu掺杂SiO2干凝胶。利用荧光光谱、IR,XRD,DSC,TG/DTG等技术研究了硼离子、退火温度对样品发光性质的影响。经500℃以上退火处理用248nm激发的样品,产生Eu^3+离子^5D0→^7FJ的特征发射,^5D0→^7F1的跃迁分裂为两个峰。比较615nm处的发光强度,掺硼酸样品的发光强度是不加硼酸发光强度的3.3倍。这是因为B离子的加入,在材料中形成了Si—O—B键,破坏了网络的对称性,加强了Eu^3+的红光发射。当退火温度上升到850℃用350nm激发时,样品有很强的Eu^2+蓝光发射。Al单掺的发射中心在437nm处,发射半峰宽约为70nm,而B,Al共掺样品的发光中心蓝移到425nm处,单掺样品的蓝光强度几乎是共掺样品强度的2倍。这是由于硼酸的加入改变了基质的网络结构,从而导致单掺和共掺样品发射峰位和强度的改变。  相似文献   

11.
掺Tb-硅基发光材料制备过程中结构及发光性能   总被引:3,自引:0,他引:3  
采用溶胶 凝胶技术,制备了不同退火温度下掺Tb3+的SiO2玻璃,掺Tb3+的凝胶玻璃在448,544,585,620 nm显示Tb3+的5D4 7FJ(J=3,4,5,6)的特征发光光谱.通过不同退火温度下样品的激发光谱、发射光谱、红外光谱、远红外光谱及差热 热重谱研究了掺Tb3+的硅基材料由凝胶向玻璃转变过程中的结构变化及对Tb3+发光性能的影响.结果显示,在50~100 ℃退火温度下,凝胶大部分吸附水分子被除去,在150~500 ℃退火温度区,是凝胶向玻璃转变的主要结构变化区,并且其发光强度也明显增加,到800 ℃时趋于稳定.这些现象得出一个结论,Tb3+的发光跃迁被O-H基强烈猝灭而随退火温度的升高而加强.  相似文献   

12.
One-dimensional La(9.33)(SiO(4))(6)O(2): Ln(3+) (Ln = Ce, Eu, Tb) microfibers were fabricated by a simple and cost-effective electrospinning method. X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FT-IR), scanning electron microscopy (SEM), transmission electron microscopy (TEM), high-resolution transmission electron microscopy (HRTEM), photoluminescence (PL) and low voltage cathodoluminescence (CL) as well as kinetic decay were used to characterize the resulting samples. SEM and TEM results indicated that the diameter of the microfibers annealed at 1000 °C for 3 h was 200-245 nm. The microfibers were further composed of fine and closely linked nanoparticles. La(9.33)(SiO(4))(6)O(2): Ln(3+) (Ln = Ce, Eu, Tb) phosphors showed the characteristic emission of Ce(3+) (5d → 4f), Eu(3+) ((5)D(0)→(7)F(J)) and Tb(3+) ((5)D(3,4)→(7)F(J)) under ultraviolet excitation and low-voltage electron beams (3-5 kV) excitation. An energy transfer from Ce(3+) to Tb(3+) was observed in the La(9.33)(SiO(4))(6)O(2): Ce(3+), Tb(3+) phosphor under ultraviolet excitation and low-voltage electron beam excitation. Luminescence mechanisms were proposed to explain the observed phenomena. Blue, red and green emission can be realized in La(9.33)(SiO(4))(6)O(2): Ln(3+) (Ln = Ce, Eu, Tb) microfibers by changing the doping ions. So the La(9.33)(SiO(4))(6)O(2): Ln(3+) (Ln = Ce, Eu, Tb) phosphors have potential applications in full-color field emission displays.  相似文献   

13.
空气中合成M2B4O7:Eu3+(M=Na,K)荧光体及其性质表征   总被引:7,自引:0,他引:7  
以M2B4O7(M=Na,K)为基质,在空气中掺杂稀土元素Eu3+得到了Na2B4O7:Eu3+和K2B4O7:Eu3+荧光体.探讨了体系的烧结条件和荧光性质,分析了晶体的结构.结果表明,虽然两种体系的最佳合成条件不同,但是体系中都同时存在[BO4]和[BO3]结构;稀土离子Eu3+的发光以电偶极跃迁5D0-7F2为主,处于非中心对称的格位上,并且可以很好地存在于基质中,Na2B4O7:Eu3+具有较强的发光强度.  相似文献   

14.
Gd(2)(WO(4))(3) doped with Eu(3+) or Tb(3+) thin phosphor films with dot patterns have been prepared by a combinational method of sol-gel process and microcontact printing. This process utilizes a PDMS elastomeric mold as the stamp to create heterogeneous pattern on quartz substrates firstly and then combined with a Pechini-type sol-gel process to selectively deposit the luminescent phosphors on hydrophilic regions, in which a Gd(2)(WO(4))(3):Ln(3+) (Ln=Eu, Tb) precursor solutions were employed as ink. X-ray diffraction (XRD), scanning electron microscopy (SEM), photoluminescence (PL) spectra, as well as low voltage cathodoluminescence (CL) spectra were carried out to characterize the obtained samples. Under ultraviolet excitation and low-voltage electron beams excitation, the Gd(2)(WO(4))(3):Eu(3+) samples exhibit a strong red emission arising from Eu(3+)(5)D(0,1,2)-(7)F(1,2) transitions, while the Gd(2)(WO(4))(3):Tb(3+) samples show the green emission coming from the characteristic emission of Tb(3+) corresponding to (5)D(4)-(7)F(6,5,4,3) transitions. The results show that the patterning of rare earth-doped phosphors through combining microcontact printing with a Pechini-type sol-gel route has potential for field emission displays (FEDs) applications.  相似文献   

15.
通过高温固相法合成Gd_2O_2S∶Tb~(3+)微米亚微米晶,研究了不同反应条件对晶体生长及其荧光发光性能的影响。利用场发射扫描电镜(FE-SEM)、高分辨透射电子显微镜(HRTEM)、X射线粉末衍射仪(XRD)和荧光光谱(PL)对Gd2O2S∶Tb~(3+)粉末进行表征。结果表明:反应时间、温度及Tb掺杂量对产物的荧光发光强度有显著影响,当Tb~(3+)掺杂量为7%时,在900℃下反应4h的样品荧光强度最佳。实验合成的Gd_2O_2S∶Tb~(3+)粉末具有优越的发光性能,用254nm光激发时,在λ=543nm处有一对应于Tb~(3+)(5D4→7F5)跃迁的强发射峰。  相似文献   

16.
Luminescent Ln (Eu3+, Tb3+) doped hydroxyapatite (Eu:HAp, Tb:HAp) phosphors were successfully fabricated via the cetyltrimethylammonium bromide (CTAB)/n-octane/n-butanol/water microemulsion-mediated solvothermal process. The structure, morphology, and optical properties were systematically characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), X-ray photoelectron spectra (XPS), Fourier transform infrared spectroscopy (FT-IR), and photoluminescence (PL) spectra as well as the kinetic decays, respectively. The XRD results reveal that the obtained Eu:HAp and Tb:HAp show the characteristic peaks of hydroxyapatite in a hexagonal lattice structure. It is observed that the as-prepared luminescent samples exhibit rod-like morphology with well dispersed and non-aggregated size distribution. Upon excitation by UV radiation, the phosphors demonstrate the characteristic 5D 0-7F 1-4 emission lines of Eu3+ and the characteristic 5D4-7F 3-6 emission lines of Tb3+. Moreover, the photoluminescence intensities (PL) of Eu3+ and Tb3+ can be tuned by altering the solvothermal temperature and the doping concentration of Eu3+ and Tb3+.  相似文献   

17.
Eu(3+) and/or Tb(3+)-doped CaYAlO(4) phosphor samples were synthesized by Pechini-type sol-gel method. X-Ray diffraction (XRD), field-emission scanning electron microscopy (FE-SEM), photoluminescence (PL) and cathodoluminescence (CL) spectra were used to characterize the samples. For CaYAlO(4):Tb(3+), it is shown that the Tb(3+)-doping concentration has a significant effect on the (5)D(3)/(5)D(4) emission intensity of Tb(3+), which is attributed to the cross relaxation from (5)D(3) to (5)D(4). Under the 4f(8)→ 4f(7)5d excitation of Tb(3+) or low-voltage electron beams excitation, the CaYAlO(4):Tb(3+) phosphors show tunable luminescence from blue to cyan, and then to green with the change of Tb(3+)-doping concentration. The CaYAlO(4):Eu(3+) samples exhibit a reddish-orange emission of Eu(3+) corresponding to (5)D(0,1)→(7)F(0,1,2,3) transitions. Furthermore, a white emission can be realized in the single phase CaYAlO(4) host by reasonably adjusting the doping concentrations of Tb(3+) and Eu(3+) under low-voltage electron beams excitation. Compared with the commercial blue (Y(2)SiO(5):Ce(3+)) and green (ZnO:Zn) phosphors, CaYAlO(4):0.1%Tb(3+) and CaYAlO(4):5%Tb(3+) phosphors have higher CL intensity and stability under continuous electron bombardment. Due to the excellent CL properties and good CIE chromaticity coordinates, the as-prepared Tb(3+)/Eu(3+)-doped CaYAlO(4) nanocrystalline phosphors have potential application in FEDs devices.  相似文献   

18.
李霞  许剑轶  王瑞芬  张胤 《应用化学》2011,28(12):1393-1396
通过高温固相法合成了LED用红色荧光粉Sr(1-1.5x)Mo0.8Si0.2O3.8∶Eu3+x(x=0.1,0.2,0.3,0.4,0.5)。 通过XRD、激发光谱和发射光谱测试了材料的物相组成以及发光性能。 x=0.1样品的XRD谱与JCPDS 08-0482(SrMoO4)的标准卡片相同。 Eu3+代替晶格中Sr2+的位置成为发光中心。 随着Eu3+含量x的增加,593 nm处的5D0-7F1跃迁和614 nm处的5D0-7F2跃迁发射强度会相互转换:当x≤0.4时,以磁偶极5D0-7F1跃迁为主,发射橙色光;而当x=0.5时,以电偶极5D0-7F2跃迁发射为主,发射红光。 可能是过量掺杂的Eu3+离子,只能存在于晶格空位形成缺陷,无法占据SrMoO4中Sr2+的格位中,Eu3+在晶格中占据非对称中心的格位,导致电偶极跃迁变成允许跃迁,从而增加了5D0-7F2跃迁,减弱了5D0-7F1跃迁。 因此,可以通过调节激活剂的含量获得不同发光色的荧光粉。 Eu3+掺杂的硅钼酸锶体系,614 nm激发下,在368 nm处出现宽的基质吸收峰和467 nm处7F0-5D2的跃迁峰,且这2处的吸收峰在x=0.5时比x=0.4时强3倍左右。 材料能非常好的吸收368 nm波长的光,产生颜色可调的橙红色。 与近紫外光LED芯片匹配良好。  相似文献   

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