四卤化锰(Ⅱ)配合物的结构调控及力致发光性能

力致发光是一种力刺激诱导的发光现象。由于其独特的发光方式,使得力致发光材料在结构损伤检测、压力传感、显示和安全标记等方面展现出了巨大的应用价值。目前已报道的力致发光材料大多基于无机材料体系,而有机力致发光材料体系相对较少,并且人们对其发光机理的认识仍不清晰。在本文中,我们发现锰(Ⅱ)配合物[BPP]2[Mn Br4]具有力致发光特性,并在此基础上设计合成了一系列具有力致发光性质的四卤化锰(Ⅱ)配合物。改变有机阳离子配体或者卤素阴离子可对其光物理性质进行有效调控。固态下,这些锰(Ⅱ)配合物均显示出了较强的光致发光现象,同时表现出了明显的力致发光特性。晶体结构分析表明,分子内/分子间强的C―H…X (X=Br或Cl)相互作用对锰(Ⅱ)配合物的力致发光起到了至关重要的作用,它可在较大程度上降低由分子振动和旋转造成的能量损失。本工作将为力刺激响应型材料体系的拓展提供一定的参考价值。     

N-乙基-1,10-菲罗啉-2-甲胺镍(Ⅱ)配合物的合成、晶体结构及性质研究

0IntroductionPhenanthrolinederivativescontainingaminegroupshavebothsoftandhardsitesandaregooddonorsformetalions.1,10鄄phenanthrolineanditsderivativeshavebeenextensivelyusedasligandsinbothanalyticalandpreparativecoordinationchemis鄄try[1].Mostoftheseworksh…     

NⅡ离子2p4f—2p3d辐射跃迁概率的理论研究

在全相对论理论框架下，利用多组态Dirac-Fock(MCDF)方法，系统计算了NⅡ离子2p4f—2p3d的辐射跃迁概率，得到的结果与已有实验值符合很好.具体计算中，详细分析了相对论效应、电子关联、弛豫效应、Breit相互作用和量子电动力学(QED)效应对能级精细结构及辐射跃迁概率的影响.结果表明：相对论效应、电子关联和弛豫效应对NⅡ 2p4f-2p3d辐射跃迁概率有很重要的影响,考虑了这些效应后计算值得到明显改善.     

LHCⅡ三聚体中叶绿素分子间能量传递的瞬态差异吸收光谱分析

应用飞秒时间分辨差异吸收光谱技术对PSⅡ的LHCⅡ三聚体中的能量传递过程进行实验研究,分析得到三组能量传递的时间寿命组分：748 fs、3.28 ps、32.15 ps.其中748 fs的组分为单体内Chl b649分子经Chl b658将能量传递给Chl a665分子的过程；3.28 ps时间常量反映单体内能量从Chl a677向吸收更长波长的Chl a688分子的能量传递过程,以及Chl b643、Chl b658和Chl a668～670分子获得能量的过程；而32.15 ps的时间与三聚体内的单体间的能量传递过程有关.     

[Ni（H2O）（tptz）（C2O4）]·4H2O的合成、结构与表征

在CH3OH／H2O混合溶剂中，经2，4，6-三（2-吡啶基）-1，3，5-三嗪（tptz）、草酸和新制Ni（OH）2／NiCO3反应合成得到配合物[Ni（H2O）（tptz）（C2O4）]·4H2O．单晶X-射线衍射分析表明：它与已报道的[M（H2O）（tptz）（C2O4）]·4H2O（M=Co（2）、Cu（3）、Zn（4））配合物同晶形，属三斜晶系，P1空间群，晶胞参数a=7．760（2）A，b=12．116（2）A，c=13．031（3）A，α=78．76（4）°，β=83．84（3）°，γ=78．69（3）°，V=1175．3（5）A^3，Z=2，Dc=1．543，F（000）=562，R1=0．0472，wR2=0．1350，GOF=1．088．在配合物的结构基础上与同晶形结构进行比较分析，并研究了它们的IR及TG／DTA测试表征．     

Syntheses,Crystal Structures and Thermal Properties of Two Dicadmiun（Ⅱ） Complexes CdeLeX2 （HL = N-（3-Methoxylsalicylidene）-3- dimethylaminopropylamine,X = Cl （1）, NCS （2））

Two Cd（Ⅱ） complexes, Cd2L2Cl2 （1） and Cd2L2（NCS）2 （2） （HL = N-（3-methoxylsalicylidene）-3-dimethylaminopropylamine） were synthesized and determined by EA, IR, TG and single-crystal X-ray diffraction. The crystallographic data are as follows： monoclinic, space group P21/n, a = 9.2710（9）, b = 18.0069（18）, c = 18.5562（19） A^°, β= 99.741（4）°, V = 3053.1（5）, Z = 4,μ = 1.605, F（000） = 1536, R = 0.0264 and wR = 0.0699 for 1; orthorhombic, space group Pca21, a = 16.196（3）, b = 11.506（2）, c = 36.126（7） A^°, V = 6732（2）, Z = 8,μ = 1.428, F（000） = 3264, R = 0.0376 and wR = 0.0877 for 2. There are two geometrically different octahedral Cd（Ⅱ） atoms, with N4O2 and O4Cl2 donor sets for 1 while N4O2 and N2O4 for 2. In the dinuclear Cd（Ⅱ） centers, the Cd（Ⅱ） atoms are held together by two deprotonted phenolate oxygen atoms from tetradentate L^- ligands. The thermal gravity data show two step decompositions with the residues of CdO for two complexes.     

Synthesis and Crystal Structure of a New Penta-coordinated Cu(Ⅱ) Complex:Cu(C17H13F3O3)2·C5H5N

A new copper(Ⅱ) complex 3,Cu(C17H13F3O3)2·C5H5N,has been synthesized and characterized by single-crystal X-ray diffraction. It crystallizes in monoclinic,space group C2/c with a = 17.8511(7),b = 17.4136(7),c = 13.9425(7) ,β = 124.4830(10)°,V = 3572.5(3) 3,Z = 4,C39H29CuF6NO6,Mr = 785.17,F(000) = 1604,T = 292(2) K,Dc = 1.460 g/cm3 and μ = 0.691 mm-1. The structure was refined to R = 0.0477 and wR = 0.1110 for 2935 observed reflections with I > 2σ(I). For the title compound,X-ray analysis reveals that the copper(II) is penta-coordinated by four oxygen atoms from the corresponding 1-(4-(benzyloxy)phenyl)-4,4,4-trifluorobutane-1,3-dione ligands and one nitrogen atom of pyridine,forming a distorted square pyramidal geometry. It is found that the trifluoromethyl group,F(1)/F(1'),F(2)/F(2') and F(3)/F(3')),is disordered over two orientations in an approximate 3:1 ratio.     

基于纳米金Core-satellites等离子体耦合增强效应的汞离子光纤传感器的研究

以DNA杂交双链为联接, 构建纳米金颗粒Core-satellites结构并激发等离子体耦合增强效应,利用Hg2+可与DNA中胸腺嘧啶T形成T-Hg2+-T特异性结构,研制了用于检测水中Hg2+的局域等离子体共振(LSPR)光纤传感器.待测溶液中的Hg2+能够引起富含T的DNA单链折叠,抑制DNA杂交反应,降低等离子体耦合强度,改变LSPR谐振波长.通过检测谐振波长红移变化,实现对Hg2+浓度的定量检测.本方法检测Hg2+的线性范围为5~150 nmol/L, 检出限为3.4 nmol/L (3σ). Zn2+、Mg2+、Pb2+等重金属离子对Hg2+检测无明显干扰作用.实际水样中Hg2+加样回收率为94.2%~105.4%,相对标准偏差<4.8%.     

基于铜纳米簇的聚集诱导发光检测铅离子

基于谷胱甘肽保护的非贵金属铜纳米簇(Cu NCs@GSH)的聚集诱导发光现象,建立了快速检测铅离子(Pb2+)的“Turn on”型荧光分析方法.Cu NCs@GSH溶液荧光强度很弱,当存在pb2+时,荧光强度可显著增强,溶液显示明亮的橙黄色.基于此原理建立了检测pb2+的荧光方法,线性范围为200～700 μmol/L,检出限为106 μmol/L,常见金属离子不干扰pb2+的测定.本方法简单快速、选择性高,可实现对pb2+的可视化定性检测.     

Fluorescent Detection of Cu(Ⅱ) by Chitosan-based AIE Bioconjugate

Detection of Cu(Ⅱ) is very important in disease diagnose, biological system detection and environmental monitoring. Previously, we found that the product TPE-CS prepared by attaching the chromophores of tetraphenylethylene(TPE) to the chitosan(CS) chains showed excellent fluorescent properties. In this study, we tried to use TPE-CS for detecting Cu(Ⅱ) because of the stable complexation of CS with heavy metals and the luminosity mechanism of the Restriction of Intramolecular Rotations(RIR) for aggregation-induced emission(AIE)-active materials. The fluorescence intensity changed when TPE-CS was contacted with different metal ions, to be specific, no change for Na~+, slightly increase for Hg~(2+), Pb~(2+), Zn~(2+), Cd~(2+), Fe~(2+), Fe~(3+) due to the RIR caused by the complexation between CS and metal ions. However, for Cu~(2+), an obvious fluorescence decrease was observed because of the Photoinduced-Electron-Transfer(PET). Moreover, we found that the quenched FL intensity of TPE-CS was proportional to the concentration of Cu(Ⅱ) in the range of 5 μmol/L to 100 μmol/L, which provided a new way to quantitatively detect Cu(Ⅱ) . Besides, TPE-CS has excellent water-solubility as well as absorbability(the percentage of removal, R = 84%), which is an excellent detection probe and remover for Cu(Ⅱ) .