BaFCl：Sm晶体的光激励发光和热释发光

研究了在X射线辐照及光激励发光和热释发光过程中,BaFCl:Sm晶体中钐离子的价态变化和F色心的产生和湮灭过程。提出了如下的BaFCl:sm晶体的光激励发光和热释发光过程:在X射线辐照下,晶体中产生F色心,同时一部分Sm~(3 )俘获空穴形成Sm~(4 ),还有少量的Sm~(3 )得到电子形成Sm~(2 )。在光激励发光和热释发光过程中,从F色心中电离出来的电子与Sm~(4 )复合转变成Sm~(3 )激发态,随后发出Sm~(3 )的特征光辐射。同时在热释发光中,Sm~(2 )还可以与空穴复合,转变成Sm~(3 )的激发态,也发出Sm~(3 )的光辐射。     

Sr_3Ca_2(PO_4)_3X:Eu~(2+)(X=F,Cl,Br)的光激励发光与F色心

研究了Eu~(2+)激活的Sr_3Ca_2(PO_4)_3X晶体中的F色心及光激励发光。讨论了不同卤离子对F色心及其能级结构的影响。探讨了在X光辐照下和光激励发光过程中Eu~(2+)的价态变化及光激励发光过程的机理。     

Mn2+在铝酸盐中的发光

用金属硝酸盐、稀土氧化物和乙酸锰为原料,用燃烧法合成了Ce³⁺、Tb³⁺、Mn²⁺共激活的铝酸盐绿色荧光粉,在Ce³⁺和Tb³⁺共激活的铝酸盐体系中掺入Mn²⁺后,发射峰中出现锰的特征峰.通过对其结构的分析,对Mn²⁺发光和最佳掺杂量给出了合理的解释.同时研究了不同碱金属和碱土金属离子代替Mg²⁺时,对Mn²⁺发光的影响.     

BaFCl晶体中的V心及光激励空穴发光

本文首次报道了室温下BaFCl晶体中的V心(空穴色心)及光激励空穴发光。V_1,及V_2,V_3心的吸收峰分别位于205,238和355nm。V_2心与F心在X射线辐照和光激励发光过程中同步形成与衰变,表明V心在X射线影像存储与再现过程中起着与F心同等重要的作用。     

嵌段共聚物PAANa-Dendr. PE聚集体超分子结构中树枝体对铽离子发光增强的天线效应研究

本文研究了两亲嵌段共聚物PAANa-Dendr.PE组成的超分子聚集体,对Tb³⁺离子的天线效应.当PAANa-Dendr.PE聚集体存在时,Tb³⁺的发光强度明显增强.而且增强的幅度正比于树枝体的代数.因此在PAANa-Dendr.PE/Tb³⁺系统中,树枝体作为“光天线”对紫外光能的捕集,通过分子内能量传递,能量沿线性PAANa链从树枝体的三重态传递到Tb³⁺离子.从而使得Tb³⁺的发光大幅度增强.     

高效率Tb3+单掺绿色荧光粉的光致/应力发光研究

稀土离子Tb³⁺被视为当前绿色荧光材料中最具潜力的激活剂之一.采用高温固相法制备了新型绿色荧光粉β-KMg(PO₃)₃:Tb³⁺,其在紫外光区域具有强的f-f跃迁激发峰,呈现出较高的荧光量子产率(90.74%),且色度坐标与商用绿色荧光粉接近,其发射峰源于Tb³⁺的⁵D₄-⁷F_J (J=6, 5, 4, 3)跃迁发射; Tb³⁺占据Mg²⁺格位,由于电荷差而产生的缺陷被热释光验证,多种深度陷阱能级的存在使得该荧光粉具备优异的热稳定性.更重要的是,β-KMg(PO₃)₃:Tb³⁺呈现出优异的应力发光特性,在应力刺激下陷阱能级中的电子及空穴分别被释放回Tb³⁺的激发态及基态,实现Tb³⁺的⁵D₃-     

紫外线对BaFCl:Eu光激励发光的增强效应

对X射线辐照后的BaFCl:Eu样品,通过研究紫外线辐照对光激励发光的影响,发现在一定条件下紫外线对光激励发光有增强的作用,并且根据光谱研究提出了光激励发光的过程为Eu²⁺和陷阱争夺激发态电子的观点,从机理上对这一现象进行了解释.     

钇(Ⅲ)、铽(Ⅲ)、铒(Ⅲ)对氨基苯甲酸配合物共掺杂二氧化硅的光声光谱研究

合成了Tb(p-ABA)₃·H₂O和Ln(p-ABA)₃·H₂O(p-ABA: 对氨基苯甲酸, Ln: Y或Er)配合物共掺杂的SiO₂样品. 荧光光谱测定结果表明, Y(p-ABA)₃·H₂O的引入增强了样品中Tb³⁺离子的特征发光, 而Er(p-ABA)₃·H₂O的引入使Tb³⁺的发光减弱. 光声光谱结果表明, 与Tb³⁺配合物单掺的样品相比, Tb³⁺和Y³⁺配合物共掺样品的光声强度降低; 而Tb³⁺和Er³⁺配合物共掺的样品则情况相反. 实验测定了共掺杂样品的相对量子发光效率和发光寿命, 从无辐射跃迁和辐射跃迁的角度提出共发光效应可能的机制. 结合对室温下陈化干燥样品的分析发现, 只有经适当的热处理过程才能在SiO₂凝胶中形成具有多核结构的稀土配合物.     

发光颜色可调的白磷钙矿结构Ca8MgBi(PO4)7∶Ce3+，Tb3+荧光粉的制备、发光性能及能量传递

采用具有白磷钙矿结构的磷酸盐作为目标产物,通过高温固相法制备了发光颜色可调的Ca₈MgBi(PO₄)₇∶Ce³⁺,Tb³⁺荧光粉。利用X射线粉末衍射(XRD)、扫描电子显微镜(SEM)和荧光光谱等表征手段对其物相组成、微观形貌及发光性能进行了详细研究。结果表明：掺杂少量的Ce³⁺、Tb³⁺并没有改变Ca₈MgBi(PO₄)₇基质的晶体结构。荧光光谱和荧光寿命曲线确定了Ce³⁺-Tb³⁺之间存在能量传递,其能量传递机制为四极-四极相互作用,能量传递效率可达81%。固定Ce³⁺浓度而逐渐增加Tb³⁺的掺杂量时,系列Ca₈MgBi(PO₄)₇∶0.08Ce³⁺,yTb³⁺荧光粉的发...     

水杨酸盐敏化BaF2∶Tb3+纳米粒子中的Tb3+离子发光

采用水热法制备了均匀、单分散的BaF₂∶Tb³⁺纳米粒子,并采用离子交换法制备了水杨酸钠敏化的BaF₂∶Tb³⁺纳米粒子(SS-BaF₂∶Tb³⁺)。 系统地研究了样品的结构、形貌和光致发光性质。 结果表明,监测Tb³⁺离子在547 nm的⁵D₄→⁷F₅跃迁,SS-BaF₂∶Tb³⁺纳米粒子获得了从200 nm到385 nm波长范围宽的激发带;激发SS的π-π^*电子跃迁吸收,由于SS到Tb³⁺的能量传递(“天线效应”),SS-BaF₂∶Tb³⁺纳米粒子产生了增强的Tb³⁺离子绿光发射;敏化纳米粒子中Tb³⁺离子光致发光寿命比未敏化纳米粒子中Tb³⁺离子寿命长。     

Synthesis and characterisation of dimeric eight-coordinate lanthanide(III) complexes of a macrocyclic tribenzylphosphinate ligand

The macrocyclic ligand 1,4,7,10-tetraazacyclododecane-1,4,7-triyl(methylenebenzyl-phosphinic acid) H3L3, has been prepared and its complexes with Eu, Gd and Tb(III) studied by NMR, relaxometry, luminescence and single crystal X-ray crystallography. In solution and in the crystal, the complexes have eight-coordinate metal centres with bridging phosphinate groups linking the two twisted square antiprismatic coordination polyhedra. A single stereoisomer crystallises from solution with an RRR and SSS configuration at the P centres in each sub-unit. The relaxivity of [GdL3]2 is low (1.9 mM-1 s-1, 298 K, 20 MHz), consistent with the absence of any proximate water molecules. The terbium dimer possesses a relatively long excited state lifetime (2.47 ms, 298 K).     

氟化镁锶中铕和铽的电荷迁移及其平衡解析

在氩气氛中，合成子ＳｒＭｇＦ４：ｘＥｕ，ｙＴｂ复合氟化物磷光体，该体系中Ｅｕ＾３＋和Ｅｕ＾２＋共存，随共掺入Ｔｂ浓度的增加，Ｅｕ＾３＋的荧光发射强度降低，Ｅｕ＾３＋的发光增强，并且Ｅｕ＾２＋的ＥＳＲ信号增强，认为Ｅｕ＾３＋和Ｔｂ３＋之间存在的电荷迁移，即Ｅｕ＾３＋Ｔｂ＾３＋→Ｅｕ＾２＋＋Ｔｂ＾４＋，通过半量手段研究了这一电荷迁移反应的平衡常数。     

Terbium Nitrate Luminescence Quenching by Eosin in the Presence of Lithium Perchlorate in Sulfolane Solutions

The quenching of terbium nitrate luminescence by the anionic dye eosin in the presence of lithium perchlorate in sulfolane solutions was examined. The temperature dependence of terbium nitrate luminescence in sulfolane solutions in the presence of perchlorate anions was studied. The energy required for the replacement of a water molecule in the coordination sphere of the Tb(3+) ion by a solvent molecule in an electrolyte solution was determined.     

Luminescence behavior of a water soluble calix[4]arene derivative complex with terbium ion(III) in gelation solution

The complexation luminescence behavior of a water soluble calix[4]arene derivative, 5,11,17,23-tetra-sulfonate-25,26,27,28-tetra-carboxymethoxycalix[4]arene (L) with lanthanoid ion (Tb(3+)) has been investigated in gelation solution at 25 degrees C by using UV-vis and fluorescence spectra. The results obtained indicated that the water soluble calix[4]arene derivative can form an efficient energy transfer complex with terbium ion(III). The fluorescence of L x Tb(3+)complex is partially quenched by gelatin in gelation solution. The quenching intensity is related to the concentration and the hydrolysis degree of gelatin. Absorption and fluorescence spectra analysis show that the -COO(-) groups on gelatin have a definite binding ability to Tb(3+), and then, gelatin could compete binding with calix[4]arene derivative upon complexation with Tb(3+), leading to the relative fluorescence quenching of the formation complex of terbium(III) ion with calix[4]arene derivative.     

Tb-MOFs在荧光检测方面的研究进展

镧系离子特殊的电子排布使镧系有机骨架材料（Ln-MOFs）具有独特的发光性质,通过骨架和不同客体分子间的相互作用,可实现对诸多物质的荧光检测。其中,以铽离子（Tb3+）为中心构筑的Tb-MOFs具有更优良的光学性能和更高的检测灵敏度,是一种极具潜力的高效荧光探针。本文以稀土Tb3+为主线,综述了近年来国内外Tb-MOFs材料在阴阳离子、有机小分子、生物分子荧光检测方面的研究进展,并对未来发展趋势进行了展望。     

Lanthanide luminescent anion sensing: evidence of multiple anion recognition through hydrogen bonding and metal ion coordination

The delayed lanthanide luminescence of the terbium [Tb(III)] diaryl-urea complex 1xTb is significantly enhanced upon sensing of dihydrogenphosphate (H2PO4(-)) in CH3CN, which occurs through multiple anion binding through hydrogen bonding interactions and potential metal ion coordination to Tb(III).     

Changes in hydration of lanthanide ions on binding to DNA in aqueous solution

The interaction of the trivalent lanthanides Ce(III), Eu(III), and Tb(III) with sodium deoxyribonucleic acid (DNA) in aqueous solution has been studied using their luminescence spectra and decays. Complexation with DNA is indicated by changes in luminescence intensity. In the system terbium(III)-DNA, changes in luminescence with pH are suggested to be due to the protonation of phosphate groups. The degree of hydration of Tb(III) on binding to DNA is followed by luminescence lifetime measurements in water and deuterium oxide solutions, and it is found that the lanthanide ion loses at least one hydration water on binding to long double stranded DNA at pH 4.7 and pH 7. Rather different behavior is observed on binding to long or short single stranded DNA, where six water molecules are lost, independent of pH. It is suggested that in this case the lanthanide probably binds to the bases of the DNA backbone. The DNA conformation seems to be an important factor in the binding. In addition, the isotopic effect on terbium luminescence lifetime may provide a useful method to distinguish between single and double stranded DNA. DSC results are consistent with cleavage of the double helix of DNA at pH 9 in the presence of terbium.     

Time gating improves sensitivity in energy transfer assays with terbium chelate/dark quencher oligonucleotide probes

Lanthanides are attractive as biolabels because their long luminescence decay rates allow time-gated detection, which separates background scattering and fluorescence from the lanthanide emission. A stable and highly luminescent terbium complex based on a tetraisophthalamide (TIAM) chelate is paired with a polyaromatic-azo dark quencher (referred to as a Black Hole Quencher or BHQ) to prepare a series of 5'TIAM(Tb)/3'BHQ dual-labeled oligonucleotide probes with no secondary structure. Luminescence quenching efficiency within terbium/BHQ probes is very dependent on the terbium-BHQ distance. In an intact probe, the average terbium-BHQ distance is short, and Tb --> BHQ energy transfer is efficient, decreasing both the terbium emission intensity and lifetime. Upon hybridization or nuclease digestion, which spatially separate the Tb and BHQ moieties, the Tb luminescence intensity and lifetime increase. As a result, time-gated detection increases the emission intensity ratio of the unquenched probe/quenched probe due to the shorter lifetime of the quenched species. A 40-mer probe that has a 3-fold increase in steady-state luminescence upon digestion has a 50-fold increase when gated detection is used. This study demonstrates that time gating with lanthanide/dark quencher probes in energy transfer assays is an effective means of improving sensitivity.     

Lanthanide sensitization in II-VI semiconductor materials: a case study with terbium(III) and europium(III) in zinc sulfide nanoparticles

This work explores the sensitization of luminescent lanthanide Tb(3+) and Eu(3+) cations by the electronic structure of zinc sulfide (ZnS) semiconductor nanoparticles. Excitation spectra collected while monitoring the lanthanide emission bands reveal that the ZnS nanoparticles act as an antenna for the sensitization of Tb(3+) and Eu(3+). The mechanism of lanthanide ion luminescence sensitization is rationalized in terms of an energy and charge transfer between trap sites and is based on a semiempirical model, proposed by Dorenbos and co-workers (Dorenbos, P. J. Phys.: Condens. Matter 2003, 15, 8417-8434; J. Lumin. 2004, 108, 301-305; J. Lumin. 2005, 111, 89-104. Dorenbos, P.; van der Kolk, E. Appl. Phys. Lett. 2006, 89, 061122-1-061122-3; Opt. Mater. 2008, 30, 1052-1057. Dorenbos, P. J. Alloys Compd. 2009, 488, 568-573; references 1-6.) to describe the energy level scheme. This model implies that the mechanisms of luminescence sensitization of Tb(3+) and Eu(3+) in ZnS nanoparticles are different; namely, Tb(3+) acts as a hole trap, whereas Eu(3+) acts as an electron trap. Further testing of this model is made by extending the studies from ZnS nanoparticles to other II-VI semiconductor materials; namely, CdSe, CdS, and ZnSe.     

Crystal Structure and Properties of a Terbium Benzoate Complex with 1,10-Phenanthroline

1 INTRODUCTION The photoactive lanthanide organic complexessuch as europium and terbium chelating with ?-dike-tones, macrocyclic ligands and a number of polya-mino carboxylates, are of both fundamental and tech-nological interest due to their intense…