Yb3+,Tb3+共掺杂Sr2B2O5荧光粉的制备及其下转换发光性能的研究

采用高温固相法合成了Tb³⁺, Yb³⁺共掺杂的Sr₂B₂O₅荧光粉。通过X射线衍射(XRD)和荧光光谱(PL)对样品的物相结构和发光性质进行了表征。XRD结果表明, 合成样品为单斜结构的Sr₂B₂O₅相。分别使用543 nm和980 nm的监测波长, 得到的激发光谱均在354 nm、374 nm处有较强的激发峰, 其中374 nm处最强, 说明Sr₂B₂O₅荧光材料在近紫外光区对太阳光有很强的吸收; 在374 nm( Tb³⁺:⁷F₆→⁵D₃) 紫外光激发下, 观察到Tb³⁺: ⁵D₄→⁷F_J ( J = 6, 5, 4, 3) 可见光区发射光, 并检测到Yb³⁺: ²F_5/2→²F_7/2的近红外发射光。通过研究激发光谱和发射光谱与Yb³⁺掺杂浓度的关系, 发现在单斜晶体Sr₂B₂O₅中, Yb³⁺具有很高的猝灭浓度。     

Ce3+-Tb3+共掺杂黄磷炉渣微晶玻璃的发光与能量传递

以黄磷炉渣为原料,采用高温熔融法制备Ce³⁺-Tb³⁺共掺杂黄磷炉渣发光微晶玻璃,通过差热分析(DTA)、X射线衍射(XRD)、稳态/瞬态荧光(FLS)、CIE色度等探究不同的Tb³⁺掺杂量对微晶玻璃析出晶相、发光性能和样品色度的影响。结果表明,Ce³⁺和Tb³⁺的引入,微晶玻璃主晶相为硅灰石,在310 nm波长激发下,随着Tb³⁺掺杂量增加,位于380 nm处Ce³⁺的特征发射峰减小,543 nm处Tb³⁺的特征发射峰增强,证实Ce³⁺和Tb³⁺之间存在能量传递,能量传递效率达到24.55%。此外,通过调整Tb³⁺掺杂量,微晶玻璃发光颜色可由蓝光调至绿光,从而实现发光颜色的可控化。     

溶胶-凝胶法制备Gd4Ga2O9: Dy3+白光发射荧光粉及其性能

通过溶胶-凝胶法制备了具有白光发射的Gd₄Ga₂O₉:x%Dy³⁺荧光粉,利用X射线粉末衍射(XRD)、扫描电子显微镜(SEM)、能谱仪(EDS)、紫外-可见漫反射光谱(UV-Vis DRS)和荧光光谱等对产物的物相结构、形貌、组分和光学性能进行研究,并分析了Dy³⁺掺杂量对样品的影响。XRD结果表明,所制备的样品为Dy³⁺掺杂的Gd₄Ga₂O₉单斜晶体和少量Ga₂O₃杂质相的混合物。紫外-可见漫反射光谱结果表明制备的Dy³⁺掺杂Gd₄Ga₂O₉晶体是一种光学带隙为5.29 eV的直接带隙半导体。荧光检测结果表明Dy³⁺掺杂Gd₄Ga₂O₉荧光粉可被属于Gd³⁺     

Bi/Tm共掺TiO2-BaO-SiO2-Ga2O3玻璃光谱特性与能量转换机理研究

用高温熔融法制备了Bi、Tm、Bi/Tm掺杂TiO₂-BaO-SiO₂-Ga₂O₃玻璃系统。在808 nm激光激发下, 与Tm单掺杂玻璃相比, Bi/Tm共掺玻璃中Tm³⁺的³H₄→³F₄跃迁荧光(~1485 nm)得到了显著的增强, 而Tm³⁺的³F₄→³H₆跃迁荧光(~1810 nm)减弱。在980 nm激光激发下, Tm单掺玻璃中没有观察到Tm离子的特征发光, 而在Bi/Tm共掺玻璃中观察到Tm³⁺的³F₄→³H₆跃迁荧光(~1810 nm)。这是由于在808和980 nm激光二极管(LD)各自激发下, Bi/Tm共掺玻璃中活性Bi离子的近红外发光能量传递给Tm³⁺, 分别产生³F₄→³H₄与³H₆→³H₅跃迁所致。采用Inokuti-Hirayama模型, 分析了该玻璃体系中Bi→Tm的能量传递机理。结果表明, Bi→Tm的能量传递属于电偶极–偶极相互作用。     

Gd2O3下转换发光材料的制备及光学性能研究

通过溶胶-凝胶法制备了Er³⁺/Yb³⁺双掺杂的Gd₂O₃下转换发光材料,按照掺杂摩尔百分比n(Gd³⁺)∶n(Er³⁺)∶n(Yb³⁺)=100∶2:x（x=0,3,6,9）调整Yb³⁺的掺杂比例,通过XRD、SEM、荧光光谱和荧光衰减研究了Er³⁺/Yb³⁺双掺对Gd₂O₃发光材料晶体结构、微观形貌、发光性能和量子传递效率的影响。结果表明,Er³⁺/Yb³⁺的掺杂没有改变Gd₂O₃的晶体结构,但使样品的特征衍射峰出现了高角度偏移;所有样品的晶粒尺寸约为65～85 nm,均属于纳米材料;随着Yb³⁺掺杂量的增加,样品在可见光区域和近红外光区域的衍射峰强度均表现出先升高后降低的趋势,其中2Er:3Yb掺杂比例的Gd     

硅铬共掺杂尖晶石长余辉材料Zn1+xGa2-2xSixO4:Cr3+中近红外余辉的增强及陷阱分布分析

本论文基于硅铬共掺杂, 合成得到了一种尖晶石长余辉材料Zn_1+xGa_2-2xSi_xO₄:Cr ³⁺。实验采用高温固相法, 按照设计的化学计量比精确称量ZnO、Ga₂O₃、SiO₂和Cr₂O₃等原料, 制备了一系列硅铬共掺杂的镓酸锌尖晶石长余辉材料, 其化学式为Zn_1+xGa_2-2xSi_xO₄:Cr ³⁺(x=0, 0.1, 0.15, 0.2, 0.5, 1)。实验结果表明: 采用硅铬共掺杂方式后, 引入合适浓度的硅离子可有效改善余辉性能。当x=0.2时, 样品余辉强度最佳, 相比ZnGa₂O₄:Cr ³⁺增强了3倍, 并且余辉持续时间长达24 h。进一步的陷阱分布分析表明, 在ZnGa₂O₄基质基础上引入硅掺杂, 可有效调控不同陷阱深度的分布。即在丰富的反位缺陷基础上, 硅的共掺杂可增加不等价替换缺陷和填隙缺陷等, 并可调控禁带宽度及缺陷形成, 从而实现改善余辉性能的目的。     

Eu2+和Dy3+掺杂浓度对Sr2MgSi2O7材料的荧光和长余辉性能的影响

采用高温固相法制备得到Sr₂MgSi₂O₇: Eu²⁺和Sr₂MgSi₂O₇: Eu²⁺, Dy³⁺发光粉, 并详细研究了Eu²⁺和Dy³⁺的掺杂浓度对Sr₂MgSi₂O₇材料的荧光和长余辉性能的影响。所有样品都在470 nm附近呈现较宽的发光峰, 这可归因于Eu²⁺离子的4f⁶5d→4f⁷电子能级跃迁。当Eu²⁺掺杂浓度超过淬灭浓度, 其浓度淬灭效应导致发光粉的荧光强度下降和余辉时间减短。同时, 发射峰的峰位随Eu²⁺浓度的增加而发生红移, 这主要由于晶体场分裂能和斯托克斯位移变化造成的, 而电子云扩大效应变化所产生的影响相对较弱。Dy³⁺离子会抑制荧光, 但有助于延长余辉时间。当其掺杂浓度超过10mol%时, Eu²⁺\Dy³⁺离子通过隧道复合机制发生浓度淬灭, 从而使材料的长余辉寿命减少。     

稀土离子掺杂钼酸盐荧光粉的制备及发光性能研究

稀土离子掺杂的上转换发光材料近年来在照明、太阳能电池行业有着广泛的应用。通过水热法制备了Ho³⁺/Yb³⁺掺杂的NaGd(MO₄)₂荧光粉,通过XRD、SEM、光谱分析等手段对NaGd(MO₄)₂荧光粉进行了表征,研究了Ho³⁺/Yb³⁺掺杂对钼酸盐荧光粉发光特性的影响。形貌结构分析表明,Ho³⁺/Yb³⁺掺杂的NaGd(MO₄)₂荧光粉均为纯的四方相结构,颗粒尺寸约为0.4～0.9μm, Ho³⁺/Yb³⁺的掺杂使NaGd(MO₄)₂荧光粉的晶胞参数变小。光谱分析表明,NaGd(MO₄)₂荧光粉中546 nm处的绿光是来自Ho³⁺的⁵F₄     

Nd3+:Lu2O3放电等离子烧结及光学性能

Lu₂O₃是具有高热导率而成为极具潜力的高功率激光介质材料。实验以商用氧化物粉体为原料, LiF为烧结助剂, 采用放电等离子烧结法制备了不同Nd³⁺掺杂浓度(C_Nd=0, 1at%, 3at%和5at%) Lu₂O₃透明陶瓷, 并研究了Nd³⁺掺杂浓度对Lu₂O₃陶瓷的物相、烧结性能、微观结构及光学性能的影响。结果表明：在高Nd³⁺浓度(5at%)掺杂后烧结样品仍为纯Lu₂O₃相;Nd³⁺掺杂对Lu₂O₃陶瓷烧结性能及微观形貌的影响有限;所有样品最终均表现出高致密性(99.5%以上)和优异的透光性能, 其中3at% Nd³⁺:Lu₂O₃的透过率最高, 在1064和2000 nm处的透过率分别为82.7和83.2%。Nd³⁺:Lu₂O₃透明陶瓷的最强发射峰位于1076和1080 nm;且随着Nd³⁺掺杂浓度的增加, 荧光强度降低, 寿命变短, 发生浓度淬灭。     

无容器制备Er3+/Yb3+共掺La2O3-TiO2-ZrO2玻璃及其上转换发光研究

利用无容器技术制备了(La_0.94-xEr_0.06Yb_x)(Ti_0.95Zr_0.05)_2.25O₆(x=0~0.24, 间隔0.04)球状透明玻璃, 其稀土离子掺杂浓度最大值达到30%。通过DTA分析发现, 玻璃具有很好的热稳定性, x=0时玻璃化转变温度T_g和析晶起始温度T_o分别为818℃和906℃, ΔT(ΔT= T_o-T_g)为88℃, 玻璃形成能力较低。随着Yb³⁺浓度提高, T_g、T_o和ΔT逐渐下降, 说明Yb³⁺降低了玻璃的热稳定性和形成能力。利用紫外可见分光光度计测定了样品的吸收/透过光谱, 玻璃在975 nm具有很强的吸收峰, 表明Yb³⁺可以有效提高玻璃对入射光的吸收强度; 在可见光范围内除特征吸收外具有近70%的透过率, 说明玻璃具有良好的透可见光性能, 有望获得高强上转换发光输出。上转换荧光光谱研究表明: 在980 nm激光泵浦下, 获得了中心位于535、554和672 nm处的绿、红发光带, x=0.16的发光最强, 672 nm处的红光强度是x=0的近130倍。上转换发光强度与泵浦功率关系的分析表明: 535、554 nm处的绿光和672 nm处的红光发光均是双光子发光过程。     

Enhancement of red emission assigned to inversion defects in ZnAl2O4:Cr3+ hollow spheres

ZnAl₂O₄:Cr³⁺ hollow spheres composed of secondary nanoparticles with single spinel phase were fabricated using carbon templets. Monitoring the emission of 687 nm, two wide excitation bands attributed to the electrons of Cr³⁺ transiting from ⁴A_2g (⁴F) → ⁴T_1g (⁴F) and ⁴A_2g (⁴F) → ⁴T_2g (⁴F) were observed. The broad excitation band at about 397 nm was asymmetric and consisted of two peaks, indicating that there was a trigonal distortion existing in the lattices. The intensity of all emitting peaks revealed sharp increasing trend with the sintering temperature increase, and the intensity of emission at 698 nm assigned to inversion defects was more intense than that of emission at 687 nm assigned to octahedral Cr³⁺ ions in the undistorted spinel lattice. The samples with higher synthesized temperature revealed longer decay time, and the relative weightage of shorter decay time component decreased with the increase of sintering temperature, indicating that the surface defects decreased.     

Effect of Y codoping on luminescence decays of the I level in Er-doped AlO powders prepared by a sol-gel method

The luminescence lifetime of the 0.01 mol.%–0.1 mol.% Er³⁺- and 0–20 mol.% Y³⁺-codoped Al₂O₃ powders prepared at a sintering temperature of 900°C in a non-aqueous sol-gel method has been investigated to explore the enhanced mechanism of photoluminescence properties of the Er³⁺-doped Al₂O₃ by Y³⁺ codoping. For the 0.1 mol.% Er³⁺–Y³⁺-codoped Al₂O₃ powders, the measured lifetime of Er³⁺ gradually increases with increasing Y³⁺ concentration. Consequently, codoping with 20 mol.% Y³⁺ leads to an increase in the measured lifetime from 3.5 to 5.8 ms. By comparing the measured lifetime for different Er³⁺ concentrations in the Al₂O₃ powders, the radiative lifetime of both the Er³⁺-doped and the Er³⁺–Y³⁺-codoped Al₂O₃ powders is estimated to be about 7.5 ms. Infrared absorption spectra indicate that Y³⁺ codoping does not change the –OH content in the Er³⁺–Y³⁺-codoped Al₂O₃ powders. The prolonged luminescence lifetime of the ⁴I_13/2 level of Er³⁺ in Er³⁺-doped Al₂O₃ powders by Y³⁺ codoping is ascribed to the decrease in the energy transfer rate between the Er³⁺ ions and the Er³⁺ and –OH, respectively, due to the suppressed interaction between Er³⁺ ions.     

On the structure of the NiO–Al2O3 systems, studied by diffuse-reflectance spectroscopy

Diffuse-reflectance spectra of the NiO–Al₂O₃ systems in the 350–800 nm spectral domain are analysed. Two types of Ni²⁺complexes in γ-Al₂O₃ have been found at low concentrations (<5%): [Ni²⁺6O²⁻] and [Ni²⁺4O²⁻] with octahedral (O_h) and tetrahedral (T_d) symmetries, respectively. Coexistence of these two complexes is discussed in connection with the sample preparation and their thermal treatment.     

柔性Eu3+掺杂SiO2纳米纤维薄膜的制备及其发光性能

采用溶胶-凝胶法结合静电纺丝技术制备了柔性Eu³⁺掺杂SiO₂纤维薄膜, 采用SEM、XRD、FT-IR、TG和PL等测试方法对材料进行表征。Eu³⁺掺杂SiO₂纤维薄膜在热处理后纤维直径变小, 纤维表面平滑无粘连。通过控制升温速度, 纤维薄膜经热处理后仍具有较高的力学强度, 750℃热处理后其拉伸强度可达4.31 MPa, 经过多次弯曲仍能保持原样。在392.6 nm光源激发下, Eu³⁺掺杂SiO₂纤维薄膜在570~670 nm附近呈现出来自于⁵D₀→⁷F_J的发射峰。当Eu³⁺掺杂浓度为8mol%时, 经过750℃热处理后Eu³⁺掺杂SiO₂纤维薄膜的发光强度达到最大值。     

Spectroscopic analysis and the effects of color centers on the laser performance of Nd: CaZn2Y2Ge3O12

Spectroscopic and EPR investigations of Nd³⁺-doped CaZn₂Y₂Ge₃O₁₂ (CAZGAR) have been performed. The absorption, fluorescence, excitation spectra and fluorescence lifetime have been measured at room temperature. The Judd-Ofelt theory has been applied to the measured optical absorption intensities to predict the radiative decay rates, branching ratios, and peak stimulated emission cross section from the metastable ⁴F_3/2 state to the ⁴I_9/2 manifold. The fluorescence lifetime of the ⁴F_3/2 level of Nd³⁺ at low concentration in this host was measured to be 285 ± 10 μs, which is longer than that for Nd³⁺: YAG. Color centers located at zinc octahedral sites have been produced in these crystals by ultraviolet irradiation and have been detected by EPR techniques. The effects of the color centers on the potential laser characteristics of this materials are discussed.     

Insertion/extraction reactions of lithium with LiV2O4

Lithium has been inserted into, and extracted from, the spinel Li_1.0V₂O₄ both electrochemically and chemically. Electrochemical and structural data show that in the system Li_1+xV₂O₄, for 0 < x ≤ 0.5, Li⁺ ions are inserted into the interstitial octahedral sites of the A_tet[B₂]_octX₄ spinel structure. At x ≈ 0.5, Li⁺ ions in the tetrahedral A-sites are displaced into the remaining octahedral sites to yield, at x = 1, a rocksalt phase Li₂V₂O₄; the [B₂]X₄ framework is unperturbed by the lithiation process. This framework also remains intact when Li⁺ ions are removed from Li_1.0V₂O₄ to a composition Li_0.67V₂O₄. Further extraction of lithium from the structure is accompanied by migration of some vanadium ions from the B-sites to the interstitial octahedral sites of the spinel structure. This process reduces the crystal symmetry from cubic to trigonal symmetry. In Li_0.27V₂O₄ the structure resembles that of Li_0.22VO₂, obtained by delithiation of layered LiVO₂, in which the vanadium cations are distributed in a 2:1 ratio between alternate cubic-close-packed oxygen layers; in the LiV₂O₄ spinel this ratio is 3:1.     

Energy transfer and radiationless relaxation processes in Nd and Cr doped mixed garnet crystals

Four-wave mixing and flourescence dynamics measurements have been used to investigate the energy transfer processes in (Gd,Ca)₃(Ga,Mg,Zr)₂Ga₃O₁₂ crystals doped with Nd³⁺ or codoped with Cr³⁺ and Nd³⁺ ions. The results show that strong, short range energy transfer takes place between Cr³⁺ and Nd³⁺ ions and this is enhanced by long range energy migration among the Cr³⁺ ions. Energy migration was also found to occur among the Nd³⁺ ions. The energy migration properties are affected by the active ion concentration, the distribution of active ions, ion-ion iteraction rates, and temperature. In addition, the pump band to metastable state radiationless relaxation process in the Cr³⁺ ions was characterized by determining the values of the dephasing time from the properties of the four-wave mixing signal. The effects of anharmonic coupling are needed to explain the variation of the T₂-dephasing time as a function of the crystal field splitting between the ²E and ⁴T₂ levels for a series of Cr³⁺-doped materials.     

粉末烧结法制备α-堇青石基玻璃陶瓷的析晶动力学和性能

在堇青石化学计量组分和非堇青石化学计量组分中分别添加B₂O₃, 通过玻璃粉末烧结法制备玻璃陶瓷,并研究了玻璃陶瓷的性能, 包括非等温析晶动力学、热学、力学和介电性能。本研究使用非堇青石化学计量组分制备了α-堇青石基玻璃陶瓷, 并加入B₂O₃促进α-堇青石析出, 提高MgO-Al₂O₃-SiO₂玻璃的结晶能力。玻璃成分中过量的MgO和SiO₂不会影响玻璃的析晶能力, 但会影响析晶的类型; 增加B₂O₃含量可以制备低热膨胀系数的α-堇青石基玻璃陶瓷, 但会降低玻璃陶瓷的软化点。此外, 增加B₂O₃含量还可以提高玻璃陶瓷的致密性和强度。α-堇青石基玻璃陶瓷的最大抗弯强度、弹性模量、断裂韧性和体积密度分别为(42.4±3.0) MPa、(34.0±2.9) GPa、(0.7±0.15) MPa·m^1/2和1.53 g/cm³。制备的α-堇青石基玻璃陶瓷表现出良好的介电性能(介电常数低至3.5), 热膨胀系数低至4.22×10^-6 K^-1。