Eu3+在层状钙钛矿M2TiO4（M=Ca,Sr,Ba）红色荧光粉中的发光特性

采用高温固相法制备了Eu3+掺杂的层状钙钛矿M2TiO4∶Eu3+(M=Ca,Sr,Ba)红色荧光粉,借助X射线衍射、紫外可见漫反射光谱和荧光光谱研究了不同煅烧温度下粉体的晶相组成及其光致发光性能。结果表明:在煅烧温度1 000℃保温2h时即可得到纯相Sr2TiO4和Ba2TiO4粉体,但即使进一步的升高温度并延长保温时间均无法得到Ca2TiO4粉体。Ba2TiO4∶Eu3+粉体在395nm激发下发射594nm(5 D0→7 F1)和615nm(5 D0→7 F2)橙红光。Sr2TiO4∶Eu3+粉体区别于通常Eu3+的特征发射,在近紫外和蓝光激发下主要发射578nm(5 D0→7 F0)和626nm(5 D0→7 F2)的强烈橙/红光,具有更好的红光色纯度和发光强度,其中363nm电荷迁移激发下具有最高的发光效率,是一种适用于近紫外和蓝光LED芯片的红光材料。     

Synthesis and luminescence properties of red-emitting M2Si5N8:Eu2+-based (M=Ca,Sr, Ba) phosphors by a simple nitrate reduction

M2Si5N8:Eu2+-based(M=Ca,Sr,Ba)red-emitting phosphors are fabricated at relatively low temperature(1200°C)and atmospheric pressure using a simple solid-state reaction process.Several processing parameters are systematically investigated to optimize the phosphors structural characterization and photoluminescence performance,including the amount of europium and the properties of the precursor materials.The as-prepared M2Si5N8:Eu2+-based(M=Ca,Sr,Ba)phosphors are orange in color and are intensively emitted in the red region of 580–670 nm under 465 nm excitation.     

Luminescent properties of Eu activated tungstate based novel red-emitting phosphors

A novel red-emission phosphor of Eu³⁺-doped tungstate was prepared at 950 °C by a modified solid-state reaction. Photoluminescence (PL) results showed that the phosphor can be efficiently excited by irradiation at wavelengths in the near-UV and blue regions of the spectrum. The material has potential application as the fluorescent material for ultraviolet light-emitting diodes (UV-LEDs). The crystallization and particle sizes of the phosphor have been investigated by using powder X-ray diffraction (XRD) and transmission electron microscopy (TEM).     

M3La(BO3)3(M=Ca,Sr,Ba)基质中Eu3+的光致发光

研究了M3La(BO3)3(M=Ca,Sr,Ba)基质中Eu3+的激发光谱和发射光谱.结果表明,最强激发峰均为394nm,并均有λ<300nm的较强电荷迁移带;按Ca-Sr-Ba的顺序,各发射峰峰值逐渐红移;Eu3+的最佳发射浓度分别为xEu3+=0.10、0.09、0.20;Eu3+的5D0→7F2跃迁发射的浓度猝灭机理分别为电偶极-四极、电偶极-偶极和电偶极-偶极相互作用.     

LiMBO3 : Dy3+材料的发光特性

采用固相法制备了LiM(M=Ca, Sr, Ba)BO₃ : Dy³⁺材料,并研究了材料的发光特性。LiM(M=Ca, Sr, Ba)BO₃ : Dy³⁺材料的发射光谱均呈多峰发射,对应于Ca,Sr,Ba,其主发射峰分别是Dy³⁺的⁴F_9/2→⁶H_15/2(484,486,486 nm),⁶H_13/2(577,578,578 nm)和⁶H_11/2(668,668,666 nm)跃迁。监测黄色发射峰时,所得激发光 谱峰值位置相同,主激发峰分别为331,368, 397,433,462,478 nm,对应Dy³⁺的⁶H_15/2→ ⁴D_7/2,⁶P_7/2,⁶M_21/2,⁴G_11/2,⁴I_15/2和⁶F_9/2跃迁。研究了敏化剂Ce³⁺及电荷补偿剂Li⁺、Na⁺和K⁺对LiM(M=Ca, Sr, Ba)BO₃ : Dy³⁺材料发光强度的影响。结果显示:加入敏化剂Ce³⁺提高了材料的发光强度,发光强度最大处对应的Ce³⁺浓度为3%;加入电荷补偿剂Li⁺、Na⁺和K⁺后,材料的发光强度也得到了明显提高,但发光强度最大处对应的Li⁺、Na⁺和K⁺浓度不同,依次为4%、4%和3%。     

N^＋（N=Li,Na,K）对发光材料M3（M=Ca,Sr,Ba）Y2（BO3）4：Eu^3＋光谱的影响

采用高温固相反应方法在空气中制备了M3(M=Ca,Sr,Ba)Y2(BO3)4∶Eu3 红色发光材料,测量结果显示,材料的主发射峰均位于613 nm处,监测613 nm发射峰时,所得材料的激发光谱相同。研究了Li ,Na 和K 对M3(M=Ca,Sr,Ba)Y2(BO3)4∶Eu3 材料激发与发射光谱的影响,结果显示,加入Li ,Na 和K 后,M3(M=Ca,Sr,Ba)Y2(BO3)4∶Eu3 材料的激发与发射光谱的峰值位置并不发生变化,但材料的激发与发射光谱的峰值强度均得到了不同程度的增强。在Li ,Na 和K 掺入浓度相同的条件下,研究发现,与加入Na 和K 时相比,加入Li 时,M3(M=Ca,Sr,Ba)Y2(BO3)4∶Eu3 材料的激发与发射光谱的峰值增强效果最明显。进而研究了Sr3Y2(BO3)4∶Eu3 材料发射峰强度随Li 掺杂浓度的变化情况,结果表明,随着Li 掺杂浓度的增大,Sr3Y2(BO3)4∶Eu3 材料发射峰强度先增大后减小,在Li 浓度为5 mol%时到达峰值,约为未掺杂时的两倍。     

Tb3+离子在碱土金属正硅酸盐中的发光

Tb3+离子激活的Me2SiO4(Me=Ca、Sr、Ba)发光材料是用分析纯试剂合成并加以提纯的BaCO3、SrCO3、CaCO3、H2SiO3、Li2CO3和Tb2(C2O4)3为原料,通过固态反应的合成方法而制成的。由X-光衔射谱,确定了样品的结构。通过荧光测量,探讨了Tb3+离子在碱土金属正硅酸盐中的发光行为。     

红色荧光粉MMoO4:Eu3+ (M=Ca,Sr,Ba)的水热合成及光谱性质

采用水热合成法制备了红色荧光粉MMoO4:Eu3+ (M=Ca,Sr,Ba),用XRD、SEM、荧光激发和发射光谱对其物相、形貌以及发光性能进行表征和研究.结果表明,在800℃时可得到MMoO4(M=Ca,Sr,Ba)物相结构,荧光粉粒径小且粒度分布均匀.分别以395 nm的近紫外光和465 nm的蓝光激发样品,MMoO4:Eu3+(M=Ca,Sr,Ba)荧光粉发红光,对应于Eu3+的4f-4f跃迁,其中以616nm发光最强.荧光粉在395nm和465nm的吸收分别与紫外光和蓝光LED芯片的发射相匹配.     

红色LiMBO3 : Re3+(Re=Eu,Sm) 发光材料的特性

采用固相法制备了红色LiM(M=Ca, Sr, Ba)BO₃ : Re³⁺(Re=Eu, Sm)发光材料,研究了材料的发光性能。研究发现LiM(M=Ca, Sr, Ba)BO₃ : Eu³⁺材料呈现多峰发射,最强发射分别位于610,615,613 nm处,分别监测这三个最强峰,所得激发光谱峰值位于369,400,470 nm。LiM(M=Ca, Sr, Ba)BO₃ : Sm³⁺材料也呈多峰发射,分别对应Sm³⁺的⁴G_5/2→⁶H_5/2、⁴G_5/2→⁶H_7/2和⁴G_5/2→⁶H_9/2跃迁发射;分别监测602,599,597 nm三个最强发射峰,所得激发光谱峰值位于374,405 nm。研究了激活剂浓度对材料发射强度的影响,结果随激活剂浓度的增大,发射强度先增强后减弱,即,存在浓度猝灭效应。实验表明,加入电荷补偿剂Li⁺、Na⁺或K⁺均可提高LiM(M=Ca, Sr, Ba)BO₃ : Re³⁺(Re=Eu, Sm)材料的发射强度。     

M2SiO4：Re(M=Mg,Ca,Ba;Re=Ce3+,Tb3+)的发光性能

合成了系列M₂SiO₄:Re(M=Mg,Ca,Ba;Re=Ce³⁺,Tb³⁺)样品,研究了样品在真空紫外区域的激发光谱和发射光谱。从激发谱可以看出:M₂SiO₄:Re(M=Mg,Ca,Ba;Re=Ce³⁺,Tb³⁺)在147,172nm有很强的吸收带。用Mg,Ca完全取代Ba₂SiO₄:Tb³⁺中的Ba,相对应的晶体的晶格参数逐渐增大,晶场的能量逐渐减少,其激发光谱随着碱土离子半径的增加向长波方向移动。在172nm真空紫外光激发下,观察到M₂SiO₄:Re(M=Mg,Ca,Ba;Re=Tb³⁺和M₂SiO₄:Re(M=Mg,Ca,Ba;Re=Ce³⁺,Tb³⁺)特征发射;在真空紫外激发下,随着M₂SiO₄:Re(M=Mg,Ca,Ba;Re=Ce³⁺,Tb³⁺)中Ce³⁺含量的增加,M₂SiO₄:Re的特征发射明显减弱,并分析讨论了相关发光现象的成因。     

M2SiO4:Re(M=Mg,Ca,Ba;Re=Ce3+,Tb3+)的发光性能

合成了系列M2SiO4∶Re(M=Mg,Ca,Ba; Re= Ce3 ,Tb3 )样品,研究了样品在真空紫外区域的激发光谱和发射光谱.从激发谱可以看出:M2SiO4∶Re(M=Mg,Ca,Ba; Re= Ce3 ,Tb3 )在147,172 nm有很强的吸收带.用Mg,Ca完全取代Ba2SiO4∶Tb3 中的Ba ,相对应的晶体的晶格参数逐渐增大,晶场的能量逐渐减少,其激发光谱随着碱土离子半径的增加向长波方向移动.在172 nm真空紫外光激发下,观察到M2SiO4∶Re(M=Mg,Ca,Ba; Re=Tb3 和M2SiO4∶Re(M=Mg,Ca,Ba; Re= Ce3 ,Tb3 )特征发射;在真空紫外激发下,随着M2SiO4∶Re(M=Mg,Ca,Ba; Re= Ce3 ,Tb3 )中Ce3 含量的增加,M2SiO4∶Re的特征发射明显减弱,并分析讨论了相关发光现象的成因.     

Temperature and wavelength dependent trap filling in M2Si5N8:Eu (M=Ca,Sr, Ba) persistent phosphors

The evaluation of persistent phosphors is often focused on the processes right after the excitation, namely on the shape of the afterglow decay curve and the duration of the afterglow, in combination with thermoluminescence glow curve analysis. In this paper we study in detail the trap filling process in europium-doped alkaline earth silicon nitrides (Ca₂Si₅N₈:Eu, Sr₂Si₅N₈:Eu and Ba₂Si₅N₈:Eu), i.e., how the persistent luminescence can be induced. Both the temperature at which the phosphors are excited and the spectral distribution of the excitation light on the ability to store energy in the phosphors' lattices are investigated. We show that for these phosphors this storage process is thermally activated upon excitation in the lower 5d excited states of Eu²⁺, with the lowest thermal barrier for europium doped Ca₂Si₅N₈. Also, the influence of co-doping with thulium on the trap filling and afterglow behavior is studied. Finally there exists a clear relation between the luminescence quenching temperature and the trap filling efficiency. The latter relation can be utilized to select new efficient 5d–4f based afterglow phosphors.     

MCeO3：Eu^3＋（M=Sr，Ba）的合成及发光性质研究

利用高温固相反应法合成了Eu^3＋掺杂的MCeO3（M=Sr，Ba）发光粉末样品，采用X射线衍射技术和荧光光谱等测试手段分别对其物相组成和发光性质进行了研究。X射线衍射结果显示，Eu^3＋离子容易替代MCeO3晶格中M^2＋离子的位置。荧光光谱测试结果表明，Eu^3＋掺杂的SrCeO3和BaCeO3样品在紫外波段存在着非常宽的吸收带，峰值分别位于311和320nm左右，它们属于Ce^4＋-O^2-的电荷迁移带，SrCeO3和BaCeO3基质与Eu^3＋离子之间存在着能量转移。在MCeO3：Eu^3＋样品中，Eu^3＋的发射主要来自于^5D0激发态能级，其中以磁偶极跃迁^5D0-^7F1发射强度为最大；此外样品中还存在着较高的^5D1激发态能级的辐射跃迁。SrCe03：EU^3＋样品的发射强度远大于BaCeO3：EU^3＋样品。     

MCe03:Eu3+(M=Sr,Ba)的合成及发光性质研究

利用高温固相反应法合成了Eu3 掺杂的MCeO3(M=Sr,Ba)发光粉末样品,采用X射线衍射技术和荧光光谱等测试手段分别对其物相组成和发光性质进行了研究.X射线衍射结果显示,Eu3 离子容易替代MCeO3品格中M2 离子的位置.荧光光谱测试结果表明,Eu3 掺杂的SrCeO3和BaCeO3样品在紫外波段存在着非常宽的吸收带,峰值分别位于311和320 nm左右,它们属于Ce4 -O2-的电荷迁移带,SrCeO3和BaCeO3基质与Eu3 离子之间存在着能量转移.在MCeO3:Eu3 样品中,Eu3 的发射主要来自于5D0激发态能级,其中以磁偶极跃迁D0-7F1发射强度为最大;此外样品中还存在着较高的5D1激发态能级的辐射跃迁.SrCeO3:Eu3 样品的发射强度远大于BaCeO3:Eu3 样品.     

Emission color variation of M2SiO4:Eu (M=Ba, Sr, Ca) phosphors for light-emitting diode

The luminescent properties of alkaline earth orthosilicates M₂SiO₄ (M=Ba, Sr, Ca) doped with Eu²⁺ ions are investigated. Two emission bands are assigned to the f-d transitions of Eu²⁺ ions doped into two different cation sites in host lattices confirmed by electron paramagnetic resonance signal. Two emission bands show the different emission color variation with substituting M²⁺ cations with smaller cations. This behavior is discussed in terms of two competing factors of the crystal field strength and covalence. Also the decay times are in order of 600-1000 ns. These phosphors with maximum excitation of around 370 nm can be applied as a color-tunable phosphor for light-emitting diode based on ultraviolet chip/phosphor technology.     

M2CeO4(M=Ca,Sr,Ba)的结构与发光特性

SSr2CeO4是一种新型的一维结构发光材料，其特殊的结构对其发光特性有决定性的作用。Sr2CeO4体系中可以顺利地进行能量传递，产生较强电荷迁移发光。合成了M2CeO4(M=Ca,Sr,Ba），发现与Sr2CeO4具有类似结构的Ba2CeO4也可以发光，而结构完全发生了变化的Ca2CeO4则不发光。     

Dy3+,Sm3+和Ce3+离子在M3La2(BO3)4(M=Ca,Sr,Ba)中光谱性质的研究

本文报导了Dy3+,Sm3+和Ce3+离子在M3La2(BO3)4(M=Ca,Sr,Ba)基质中的激发与发射光谱;研究了Dy3+离子黄蓝发射的相强度随基质化合物的组成和结构的不同而呈现的变化规律;讨论了Sm3+离子电荷迁移激发带的能量与基质中近邻阳离子的关系并分析了Sm3+和Eu3+离子4f电子构型对电荷迁移带能量的影响。本文还给出了Dy3+,Sm3+和Ce3+离子发光的浓度淬灭值。     

Photoluminescence properties of red-emitting phosphors Ln3BWO9:Eu3+ (Ln=Y,La, Gd)

Undoped and Eu³⁺ activated Ln₃BWO₉ (Ln=Y, La, Gd) were prepared by the Pechini method and characterized with X-ray diffraction (XRD) and ultraviolet (UV) spectroscopy. All the samples have the hexagonal phase after heat treatment in the range of 850–1000 °C. The Eu³⁺ doped samples emit high-purity red light with peak maximum at about 617 nm under excitation of UV light (～285 nm) at room temperature. When the doping concentration of Eu³⁺ is about 20–30%, luminescence intensity reaches the maximum. Luminescence decay curves indicate that Ln₃BWO₉:Eu³⁺ exhibits a fast decay time of about 0.5 ms. A possible luminescence mechanism has also been proposed. It is worth noting that both the absorption of host lattice and the charge transfer (CT) transition of Eu³⁺ are of great importance to the promising luminescent performance of Ln₃BWO₉:Eu³⁺.     

Eu3+在M3La2(BO3)4(M=Ca,Sr,Ba)中的发光性质

本文报导了M3La2(BO3)4:Eu3+(M=Ca,Sr,Ba)磷光体的制备方法及晶体结构。三种磷光体均属正交晶系。研究了Eu3+离子的光谱特征与基质化合物的关系。发现在三种磷光体中,被Eu3+所取代的La3+离子均只有一种格位,且在此格位上不具备反演操作的对称性;Eu3+在Ca3La2(BO3)4:Eu3+中所处格位的局部对称性最低,属C1,C2和Cs中之一种,在M3La2(BO3)4:Eu3+(M=Sr,Ba)中Eu3+所处格位的局部对称性可能为C2v。