Tb3+/Eu3+镧系金属有机框架材料在荧光检测的研究进展

镧系金属有机骨框架（Lanthanide metal organic frameworks,Ln-MOFs）是以镧系离子为中心,与配体有机物组合的多孔材料,具有良好的光学性质,在许多领域有广泛的应用。不同的镧系离子与相应的有机配体结合,可组成不同性能的Ln-MOFs。在众多镧系元素中,Tb3+和Eu3+是良好的发光中心,常被用于组建发光Ln-MOFs。由Tb3+/Eu3+与有机配体形成的Ln-MOFs具有独特的荧光特性、较大stokes位移以及长发光寿命等优点在荧光检测领域具有重要应用。本文综述了基于Tb3+/Eu3+的Ln-MOFs在离子检测、生物标志物检测以及小分子检测领域的研究进展,对Ln-MOFs的发展前景进行了展望。     

铽金属有机框架材料在铝离子检测中的应用

利用溶剂搅拌法制成了一种Tb(III)-MOFs类型的发光金属有机框架,并用于测定铝离子浓度。然后对Tb-MOFs进行了X射线衍射、红外光谱、SEM、荧光光谱等表征,考察了Tb-MOFs的性能。值得注意的是,Tb-MOFs具有很好的热稳定性,在长时间储存的Tb-MOFs也具有良好的荧光稳定性。在λ_(ex)=255 nm和λ_(em)=543 nm处出现了Tb-MOFs的最大激发峰和发射峰。当存在低浓度的靶标Al~(3+)的情况下,会增强Tb-MOFs的荧光强度。通过进一步研究发现Tb-MOFs的荧光强度与Log(C_(Al)~(3+))在10～2000 nM的范围内成线性关系,Al~(3+)的检测范围是10～2000 nM,检测限6.94 nM。实验结果表明这种方法对Al~(3+)的检测有着灵敏度高,特异性较好的优点,是一种有潜力的Al~(3+)检测的方法。     

一种新的镧系金属有机骨架材料的合成、 结构及荧光检测性质

利用溶剂热方法合成了一种以Tb³⁺离子为中心的金属有机骨架材料［Tb₂(bpt)₂(H₂O)₂］·(DMA)_4.5, 并通过单晶X射线衍射(SXRD)、 粉末X射线衍射(PXRD)、 元素分析(EA)、 热重分析(TGA)、 傅里叶变换红外光谱 (FTIR)以及荧光光谱技术(FS)表征了该材料的结构与基本物理化学性质. 单晶衍射分析结果显示该材料具有包含一维直孔道的三维结构, 结构中孔道窗口尺寸约为1.23 nm×1.10 nm. 荧光分析测试结果表明该材料对Cr³⁺离子有荧光响应, 离子检测限低至0.22 mg/L, 同时具有良好的选择性, 在Cr³⁺离子的荧光检测领域具有重要的应用潜力.     

柔性镧系金属有机骨架材料比例荧光法检测Fe3+

设计了一个三羧酸柔性配体L,其可提供捕获镧系金属的亲和力及调节配体的能级,并可用于合成同时具有高稳定性和双发射特性的柔性镧系金属有机骨架(Eu-MOF)材料。利用柔性配体到金属的不完全能量转移使得材料出现350 nm和623 nm处的强双发射,构筑了比例荧光传感平台。由于柔性配体不稳定的电子构型以及Eu³⁺和Fe³⁺之间的离子交换,Eu-MOF可用于对Fe³⁺的比例荧光检测。Eu-MOF对Fe³⁺的检出限为0.592μmol/L,并分别在1.0～60.0μmol/L和60.0～90.0μmol/L范围内呈线性关系,响应时间低至3 min。Eu-MOF对Fe³⁺检测具有良好的选择性、抗干扰性以及可回收性,用于实际样品中Fe³⁺检测,加标回收率为98.4%～102.6%。     

基于四唑功能位点的Tb~(3+)配位聚合物的构筑及其金属离子荧光检测性能

镧系金属配位聚合物因其独特的组成、结构和性质被广泛应用于荧光识别检测性质研究,但其功能导向构筑依然具有挑战性。本文基于双功能基团配体构筑策略构筑了一例Tb~(3+)配位聚合物[Tb(TZI)(DMF)_2(H_2O)]·(H_2O)(1)((H_3TZI=5-(1-氢-5-四唑基)间苯二甲酸,DMF=N,N-二甲基甲酰胺)),在对其进行详细结构表征的基础上研究了其金属离子识别检测性质。结果表明,基于羧酸和四唑基团与Tb~(3+)离子配位能力的不同,在确保Tb~(3+)配位聚合物成功构筑的同时可将四唑作为识别位点引入配位聚合物框架,使得配合物1可展现出基于金属离子与四唑功能位点配位导致的荧光增强,可实现对Zn~(2+)和Na~+离子的识别检测。本文所报道的结果可为镧系金属配位聚合物的荧光识别检测性质导向构筑提供有价值的参考。     

多色发光层状稀土氢氧化物/聚甲基丙烯酸甲酯复合荧光薄膜的组装

本文通过水热法合成了含有3种不同稀土离子的层状稀土氢氧化物(Gd0.5Tb0.5-xEux)2(OH)5NO3.nH2O,并选择有机物水杨酸(HSA)作为敏化剂,通过在水热条件下的离子交换反应,成功将其以有机阴离子形式与层状稀土氢氧化物插层组装获得有机-无机杂化荧光材料(SA--LRHs∶xEu)。荧光性质测定表明,SA-通过有效的能量转移增强了Tb3+的特征绿色荧光发射,随着Eu3+含量的增加,Eu3+的特征红色荧光发射随之增强,而Tb3+的特征绿色荧光发射随之减弱。在此基础上,将发光颜色可调的有机-无机荧光材料与聚甲基丙烯酸甲酯(PMMA)复合组装出透明的荧光薄膜。     

基于RGO-Au-ZIF-8复合材料的电化学传感器制备及其在铅离子和铜离子同时检测中的应用

金属有机骨架（MOFs）材料因其结构和组成特点在重金属离子的吸附和预富集方面表现出独特优势,在重金属离子的光学传感方面显示出极大的应用潜力,但其导电性较差,这大大限制了其在电化学传感领域的应用.制备了一种功能化的金属有机骨架复合材料——热还原氧化石墨烯-金-沸石咪唑酯骨架材料（RGO-Au-ZIF-8）.该复合材料具有较本体MOF显著改善的电化学性质,利用其构建电化学传感平台实现了对水相溶液中铅离子（Pb²⁺）和铜离子（Cu²⁺）的同时灵敏检测.借助扫描电子显微镜、透射电子显微镜、紫外可见吸收光谱法和各种电化学技术对所制备材料及其修饰电极的形貌、结构和电化学特性进行了表征.采用阳极溶出伏安法（DPASV）对水相溶液中的Pb²⁺和Cu²⁺进行检测,并对检测溶液pH、沉积时间和沉积电位等实验参数进行了优化.在最优化条件下,该传感平台对Pb²⁺和Cu²⁺的检测线性浓度范围分别为0.005～10（Pb²⁺）和0.01～10（Cu²⁺）μmol·L^-1,检测限为2.6×10^-9（Pb²⁺）和7.8×10^-9（Cu²⁺） mol·L^-1.此外,还对该传感平台的选择性、重现性和稳定性进行了考察,并进行了实际水样中Pb²⁺和Cu²⁺的回收实验.该工作为重金属离子的同时、快速且灵敏的检测提供了一种新的平台,并大大拓展了MOFs材料的电化学应用.     

LaL3(NO3)3·(H2O)2·(C2H5OH)2的晶体结构和生成反应焓变

0 引言 稀土是一类具有特殊结构和性质的元素,稀土元素不仅大量用于工业,而且在农业和医学领域也有广泛应用 [1,2].其中,镧系离子以其独特的光、电、磁、催化和分析等性能而受到人们的广泛关注,并进行了大量的研究.镧系离子本身发光效率低,目前,设计并合成含有稀土离子La3+和Eu3+的超分子配合物,作为发光分子器件和荧光探针成为稀土配位化学,材料科学,超分子化学,分析化学和生物化学等研究领域的热点课题之一 [3～8].但对它们的热化学行为的研究鲜见文献报道.     

原位聚合法制备透明聚苯乙烯的表征及其荧光性质研究

以极性较小的三异丙氧基铽为原料,选择与铽离子发光相匹配的乙酰丙酮为有机配体掺杂于苯乙烯（St）／少量的甲基丙烯酸甲酯（MMA）的混合单体中,通过原位本体聚合直接得到一类改性聚苯乙烯材料。并用红外光谱和紫外光谱表征其结构。可见光透过曲线表明这类改性聚苯乙烯材料具有高铽含量、高透过率的特点,用荧光光谱表征它们的荧光性能,结果表明：该材料在高铽含量下仍能发射很强的Tb3＋离子的特征荧光,未出现明显的荧光猝灭现象。     

α-丙氨酸和L-组氨酸的分子力学计算及其镧系离子配合物结构的NMR研究

应用分子力学计算得到了α-丙氨酸和L-组氨酸在溶液中的分子结构。在此基础上, 通过对镧系离子诱导位移的分析和模拟, 计算了氨基酸镧系离子配合物的13^C NMR作接触位移, 模拟了配合物的分子结构。结果表明, 在α-丙氨酸镧系离子配合物中, Ce^3+, Pr^3+, Nd^3+与丙氨酸的一个氧原子和一个氮原子形成双齿配位; Sm^3+, Eu^3+, Tb^3+, Dy^3+, Ho^3+, Er^3+, Tm^3+, Yb^3+则与两个氧原子形成双齿配位, 在L-组氨酸镧系离子配合物中, Ce^3+~Eu^3+与组氨酸的两个氧原子和α-氨基的氮原子形成三齿配位, 镧系离子Tb^3+~Yb^3+则与两个氧原子形成双齿配位, 同时, 还讨论了pH条件对氨基酸镧系离子配合物结构的影响。     

基于金属离子交换的有机金属凝胶用于检测抗生素与硝基芳香族化合物

废水中有机化合物的快速检测一直是一个重要的问题。采用离子交换法制备了具有荧光特性的铽基金属有机凝胶MOG（Tb）。研究表明,即使存在其他有机化合物,微量的呋喃唑酮（FZD）、甲硝唑（MDZ）、2,4-二硝基甲苯（2,4-DNT）和4-硝基苯酚（4-NP）也能有效猝灭MOG（Tb）的荧光发射,证明MOG（Tb）干凝胶作为一种化学传感器可以有效检测抗生素（FZD、MDZ）和硝基芳香族化合物（2,4-DNT、4-NP）。有趣的是,青霉素钾（PCLP）却能增强MOG（Tb）的荧光。此外,还进行了MOG（Tb）干凝胶的可回收性和水稳定性试验,并得到了较为满意的结果。     

尖吻蝮蛇蛇毒中纤溶组分与铽的相互作用

利用平衡析,原子吸收,荧光滴定和荧光寿命测定等方法确定了皖南尖吻蝮蛇蛇毒纤溶组分中Ｃａ＾２＋含量,并利用荧光光谱研究了Ｔｂ＾３＋与ＦＰ中色氨酸残基之间能量转移和ＦＰ中的微区结构。     

A Water‐Stable Terbium(III)–Organic Framework as a Chemosensor for Inorganic Ions,Nitro‐Containing Compounds and Antibiotics in Aqueous Solutions

Effective detection of organic/inorganic pollutants, such as antibiotics, nitro‐compounds, excessive Fe³⁺ and MnO₄^?, is crucial for human health and environmental protection. Here, a new terbium(III)–organic framework, namely [Tb(TATAB)(H₂O)]?2H₂O ( Tb‐MOF , H₃TATAB=4,4′,4′′‐s‐triazine‐1,3,5‐triyltri‐m‐aminobenzoic acid), was assembled and characterized. The Tb‐MOF exhibits a water‐stable 3D bnn framework. Due to the existence of competitive absorption, Tb‐MOF has a high selectivity for detecting Fe³⁺, MnO₄^?, 4‐nirophenol and nitroimidazole (ronidazole, metronidazole, dimetridazole, ornidazole) in aqueous through luminescent quenching. The results suggest that Tb‐MOF is a simple and reliable reagent with multiple sensor responses in practical applications. To the best of our knowledge, this work represents the first Tb^III‐based MOF as an efficient fluorescent sensor for detecting metal ions, inorganic anions, nitro‐compounds, and antibiotics simultaneously.     

Fluorescent studies on the binding-Ca2 + in fibrinolytic principle separated from snake venom

By using equilibrium dialysis, atomic absorption spectrometry, fluorescence titration and determination of fluorescence lifetime, it can be determined that each fibrinolytic principle (FP) molecule contains one Ca2+-binding site and one Ca2+ ion, which can be substituted by a Tb3+ ion completely. The intramolecular energy transfer between Tb3+ and the tryptophan (Trp) residue in FP has been investigated through fluorescence spectroscopy. In the FP molecule, the excited energy can transfer from the Trp residue as an energy donor to the Tb3+ ion substituted as an acceptor. The distance between Tb3+ and the Trp residue, approximately 0.38 nm, has been calculated with the experimental data and Forster theory.     

Tb3N@C84: an improbable, egg-shaped endohedral fullerene that violates the isolated pentagon rule

The structure of isomer 2 of Tb3N@C84 has been determined through single-crystal X-ray diffraction on Tb3N@C84.NiII(OEP).2(C6H6). The carbon cage has a distinct egg shape due to the presence of a single pair of fused pentagons at one apex of the molecule. Thus, although 24 IPR structures are available to the C84 cage, Nature utilizes one of the 51 568 isomeric structures that do not conform to the IPR for this unusual molecule. The Tb3N portion of isomer 2 of Tb3N@C84 is strictly planar. One Tb atom is nestled within the fold of the fused pentagons, while the other Tb atoms are disordered over four pairs of sites.     

Selective Sensing of Fe3+ and Al3+ Ions and Detection of 2,4,6‐Trinitrophenol by a Water‐Stable Terbium‐Based Metal–Organic Framework

A water‐stable luminescent terbium‐based metal–organic framework (MOF), {[Tb(L₁)_1.5(H₂O)] ? 3 H₂O}_n (Tb‐MOF), with rod‐shaped secondary building units (SBUs) and honeycomb‐type tubular channels has been synthesized and structurally characterized by single‐crystal X‐ray diffraction. The high green emission intensity and the microporous nature of the Tb‐MOF indicate that it can potentially be used as a luminescent sensor. In this work, we show that Tb‐MOF can selectively sense Fe³⁺ and Al³⁺ ions from mixed metal ions in water through different detection mechanisms. In addition, it also exhibits high sensitivity for 2,4,6‐trinitrophenol (TNP) in the presence of other nitro aromatic compounds in aqueous solution by luminescence quenching experiments.     

基于稀土离子介导石墨烯量子点荧光开关的凝血酶生物传感器

稀土离子(Er3+)可与荧光石墨烯量子点(GQDs)表面的含氧基团发生配位,在Er3+介导下形成高配位数的GQDs/Er3+配合物,引起GQDs聚集而使其荧光减弱.凝血酶(Tb)中的氮和氧等原子可与Er3+发生配位作用,从而与GQDs竞争结合Er3+,减弱了GQDs与Er3+的作用而使其荧光恢复.通过检测GQDs的荧光即可实现对Tb活性的高灵敏分析,构建了基于Er3+介导GQDs荧光开关的Tb传感方法,采用透射电镜、原子力显微镜、红外吸收光谱以及荧光光谱等对传感机理进行了研究.本方法对Tb的检出限低至0.049 nmol/L,其它蛋白质对Tb检测无明显干扰,实际样品中Tb加标回收率为98.0%~105.3%,相对标准偏差为0.6%~4.2%.     

Novel photofunctional multicomponent rare earth (Eu3+, Tb3+, Sm3+ and Dy3+) hybrids with double cross-linking siloxane covalently bonding SiO2/ZnS nanocomposite

Zinc sulfide (ZnS) quantum dot is modified with 3-mercaptopropyltrimethoxysilane (MPTMS) to obtain MPTMS functionalized SiO(2)/ZnS nanocomposite. Novel rare earth/inorganic/organic hybrid materials are prepared by using 3-(triethoxysilyl)-propyl isocyanate (TESPIC) as an organic bridge molecule that can both coordinate to rare earth ions (Eu(3+), Tb(3+), Sm(3+) and Dy(3+)) and form an inorganic Si-O-Si network with SiO(2) ZnS nanocomposite after cohydrolysis and copolycondensation through a sol-gel process. These multicomponent hybrids with double cross-linking siloxane (TESPIC-MPTMS) covalently bonding SiO(2)/ZnS and assistant ligands (Phen = 1,10-phenanthroline, Bipy = 2,2'-bipyridyl) are characterized and especially the photoluminescence properties of them are studied in detail. The luminescent spectra of the hybrids show the dominant excitation of TESPIC-MPTMS-SiO(2)/ZnS unit and the unique emission of rare earth ions, suggesting that TESPIC-MPTMS-SiO(2)/ZnS unit behaves as the main energy donor and effective energy transfer take place between it and rare earth ions. Besides, the luminescent performance of Bipy-RE-TESPIC-MPTM-SiO(2)/ZnS hybrids are superior to that of Phen-RE-TESPIC-MPTMS-SiO(2)/ZnS ones (RE=Eu, Tb, Sm, Dy), which reveals that Bipy or Phen only act as structural ligand within the hybrid systems.     

Application of long-lived luminescence for detection in liquid chromatography

Summary Quenched and sensitized lanthanide luminescence as detection in liquid chromatography has been investigated. An important advantage in comparison with phosphorescence is that the long-lived luminescence as applied does not require deoxygenation of the samples. In order to obtain a high luminescence intensity Tb(III) complexes with acetylacetonate have been formed, after which indirect excitation of Tb(III) can be realized via the ligands. The potential of Tb(III) luminescence as a detection method in ion chromatography has been shown for chromate, which is an efficient quencher. Sensitizing of the Tb(III) luminescence has been applied for thiol-containing analytes. These compounds are derivatized with maleimidyl salicylic acid to complexes that sensitize the Tb(III) luminescence. From a comparison of the results obtained with normal fluorescence detection and time-resolved sensitized Tb(III) luminescence detection it has become clear that the last method has a higher sensitivity, but in particular a higher selectivity.