三核铜(Ⅰ)配合物的合成与荧光光谱

室温下,通过双核配合物[Cu(dppm)(NO₃)]₂ (dppm=双二苯基膦甲烷)与四苯基硼钠在甲醇和二氯甲烷混合溶剂中反应制备了三核铜(Ⅰ)配合物[Cu₃(dppm)₃(NO₃)(OH)](NO₃),经过红外光谱、热重分析、核磁和ES-MS等现代分析手段表征了配合物的物理化学性质,并进一步研究了配合物在室温下的荧光光谱特征。     

铕(Ⅲ)-呋喃甲酸配合物的光谱表征

以硝酸铕 ,呋喃甲酸和邻菲咯啉 (phen)合成了配合物 [Eu(FA) 3·2H2 O]·NO3(4 ,4’ Hbpy) ,[Eu(FA) 3·phen]H2 O和Eu(FA) 2 ·NO3·phen。用元素分析、红外吸收光谱、紫外吸收光谱和溶液荧光光谱对配合物进行了组成确定和表征。溶液荧光光谱表明 ,配合物 [Eu(FA) 3·2H2 O]·NO3(4 ,4’ Hbpy)的发光强度比混配配合物Eu(FA) 2 ·NO3·phen和 [Eu(FA) 3·phen]H2 O的发光强度小很多 ,而且发光寿命较短 ,三元配合物 [Eu(FA) 3·phen]H2 O的发光强度比四元配合物Eu(FA) 2 ·NO3·phen的发光强度略大     

新型Schiff碱双核铜配合物与DNA相互作用的光谱研究

研究了在pH5.3的醋酸-醋酸钠缓冲体系中,四甘醇醛缩苯丙氨酸Schiff碱与铜的双核配合物([Cu2L(NO3)]NO3)与DNA作用的情况.结果表明[Cu2L(NO3)]NO3在此体系下具有较强的荧光,DNA加入后对其荧光有一定的敏化作用.探讨了造成此种现象的可能原因,并推导了该二元体系的结合常数.     

希夫碱配合物M3L6(NO3)6(H2O)2的合成与光谱性质

以4-氨基-1,2,4-三氮唑与对二甲氨基苯甲醛为原料,在冰醋酸催化下合成了配体4-氨基-1,2,4-三氮唑缩对二甲氨基苯甲醛(L).然后利用L与过渡金属硝酸盐[M(NO3)2·xH2O(M=Cu,C0,Zn,Cd;x=3～6)]在无水乙醇中反应,制得固态配合物M3L6(NO3)6(H2O)2.通过元素分析、红外光谱、紫外光谱、荧光光谱等手段对合成的配体及配合物进行了表征.实验结果表明,该物质是一种多晶粉末状的发光材料,在紫外光的激发下,在乙醇溶液体系中的荧光发射峰在416 nm处,为蓝色荧光,色纯度高,荧光量子效率高,而配合物M3L6(NO3)6(H2O)2的荧光发射峰则红移至445 nm左右,同时荧光强度显著增强.M3L6(NO3)6(H2O)z中与M(Ⅱ)发生配位作用的基团是配体中三氮唑环上的氮原子.     

2-噻吩乙醛酸-邻菲罗啉-铕配合物的合成、结构表征及荧光性能的研究

合成了铕与 2 噻吩乙醛酸 (HL)和邻菲罗啉 (phen)的配合物 ,用元素分析、电导率、红外光谱和核磁共振谱测定了配合物的分子式为 [EuL2 phen·(H2 O) 3 ]NO3 ;配合物中的Eu(Ⅲ )离子与 2 噻吩乙醛酸和水分子中的O原子以及邻菲罗啉中的N原子配位。在室温下测定了配合物的激发和发射光谱 ,配合物中Eu(Ⅲ )离子的5D0 7F1和5D0 7F2 跃迁分别位于 5 92和 6 18nm。该固体配合物于室温下被紫外光激发可以发出强的特征红色荧光。IR光谱中 ,2 噻吩乙醛酸的特征吸收峰νCO (1719cm-1) ,νC—O(12 32cm-1) ,δO—H(90 9cm-1)在形成配合物后消失。在配合物中出现—COO-的反对称νas(16 4 2cm-1)和对称νs(14 0 8cm-1)伸缩振动吸收峰。在1HNMR谱图中 ,2 噻吩乙醛酸环上的 3个氢原子的化学位移形成配合物后移向高场 ,邻菲罗啉环上 4种不同环境的质子峰的化学位移形成配合物后向低场移动。从TG曲线可以看出 ,此配合物在常温至 2 5 0℃以下是稳定的。     

水杨醛甘氨酸席夫碱-含氮杂环稀土配合物的合成及其与DNA作用的光谱研究

合成了以水杨醛甘氨酸席夫碱(Sal-GlyK)、邻菲罗啉(Phen)和2,2'-联吡啶(Bipy)为配体、Eu3+、La3+为中心的配合物。对其进行了元素分析和摩尔电导、红外光谱及紫外吸收光谱测定,推测配合物的组成分别为RE(Sal-Gly)(NO3)·2H2O和RE(Sal-Gly)(Phen)(NO3)·H2O、RE(Sal-Gly)(Bipy)(NO3)·H2O(RE3+=Eu3+,La3+)。通过紫外吸收光谱及荧光光谱研究了稀土配合物与小牛胸腺DNA的作用方式及其结合常数。结果表明,本文合成的配合物与DNA的结合能力的顺序为RE(Sal-Gly)(Phen)(NO3)·H2ORE(Sal-Gly)(Bipy)(NO3)·H2ORE(Sal-Gly)(NO3)·2H2O,表明配合物是以插入方式与DNA结合,含有良好平面性和较大表面积配体的配合物可以更好地插入到DNA的碱基对中。     

希夫碱配合物M3L3(NO3)6(H3O)2的合成与光谱性质

以4-氨基-1,2,4-三氮唑与对二甲氨基苯甲醛为原料, 在冰醋酸催化下合成了配体4-氨基-1,2,4-三氮唑缩对二甲氨基苯甲醛（L）。 然后利用L与过渡金属硝酸盐［M(NO3)2·xH2O(M=Cu,　Co,　Zn,　Cd; x=3～6)］在无水乙醇中反应, 制得固态配合物M3L6(NO3)6(H2O)2。 通过元素分析、 红外光谱、 紫外光谱、 荧光光谱等手段对合成的配体及配合物进行了表征。 实验结果表明, 该物质是一种多晶粉末状的发光材料,　在紫外光的激发下,　在乙醇溶液体系中的荧光发射峰在416 nm处,　为蓝色荧光, 色纯度高,　荧光量子效率高, 而配合物M3L6(NO3)6(H2O)2的荧光发射峰则红移至445 nm左右, 同时荧光强度显著增强。　M3L6(NO3)6(H2O)2中与M(Ⅱ)发生配位作用的基团是配体中三氮唑环上的氮原子。     

离子对配合物[Cu(L)n][Ni(dmit)2]的合成与光谱表征

本文首先合成了三种以 Cu2 离子为中心离子的配位阳离子 ,然后将其与配位阴离子 [Ni(dmit) 2 ]2 -组装 ,合成了 3个新型 [Cu Ln][Ni(dmit) 2 ]离子对配合物 ,用元素分析、红外光谱、紫外 -可见吸收光谱对配合物的组成和结构进行了表征     

3,4,7,8-四氯-1,10-菲咯啉及其铜（Ⅱ）配合物的合成与表征

设计合成了3,4,7,8-四氯-1,10-菲咯啉,并对3,4,7,8-四氯-1,10-菲咯啉采用了一种简便的后处理方法,同时得到了铜与-3,4,7,8-四氯-1,10-菲咯啉配位的有机过渡金属配合物.通过对配合物的元素分析、热重分析、红外光谱和电子光谱的研究,结果表明,配合物的组成为[Cu(Cl4Phen)(NO3)]NO3(Cl4Phen=3,4,7,8-tetrachloro-1,10-phenantIlroline),铜(Ⅱ)以四配位的方式与3,4,7,8-四氯-1,10-菲咯啉的两个氮原子、硝酸根的两个氧原子形成配位.     

Ce（Ⅲ）,Dy（Ⅲ）与四异丙基亚甲基双膦酸酯配合物的合成与光谱表征

在乙腈溶液中合成了三种镧系金属三氟甲基磺酸盐Ln(OTf)3(Ln=Ce,Dy)与四异丙基亚甲基双膦酸酯[L=(iPrO)2P(O)CH2P(O)(iPrO)2]配合物[CeL4](OTf)3.2H2O,[Dy(OTf)2L2(H2O)2](OTf)(CH3CN)和[DyL4](OTf)3.L.2H2O。荧光分析发现,[CeL4](OTf)3.2H2O在波长249和300 nm激发下,测得641 nm处有明显的发射峰,Dy3 的两种配合物中[Dy(OTf)2L2(H2O)2](OTf)(CH3CN)中有水参与配位,使得其发射和激发峰的强度均弱于没有水参与配位的[DyL4](OTf)3.L.2H2O。另外,通过元素分析,热重分析,红外光谱和核磁共振等手段对配合物进行了组成确定和光谱学表征,并初步确定了膦氧配体与稀土离子的配位模式。这三种配合物均是八配位模式,[CeL4](OTf)3.2H2O和[DyL4](OTf)3.L.2H2O呈现高的对称性,4个L配体作为双齿配体全部参与配位,而[Dy(OTf)2L2(H2O)2](OTf)(CH3CN)中Dy3 周围除两个L和两个OTf外,还有2个配位水。     

Ni（Ⅱ）,Cu（Ⅱ）,Zn（Ⅱ）的硝酸盐与氟哌酸的固态配合物的 …

由氟哌酸与Ｎｉ（Ⅱ）、Ｃｕ（Ⅱ）、Ｚｎ（Ⅱ）的硝酸盐合成了三个未见报道的固态配合物,并用元素分析、摩尔电导、红外光谱、热重分析表征了它们的组成和性质。     

XAFS investigations of copper(II) complexes with tetradentate Schiff base ligands

X‐ray absorption fine structure spectra have been investigated at the K‐edge of copper in copper(II) salen/salophen complexes: [Cu(salen)] (1), [Cu(salen)CuCl₂].H₂O (2), [Cu(salophen)] (3) and [Cu(salophen) CuCl₂].H₂O (4), where salen^2? = N,N′‐ethylenebis (salicylidenaminato); salophen^2? = o‐phenylenediaminebis(salicylidenaminato). Complexes 1 and 3 are supposed to have one type of copper centers (called (Cu1)) and complexes 2 and 4 two types of copper centers (called (Cu1) and (Cu2)) having different coordination environments and geometries. A theoretical model has been generated using the available crystallographic data of complex 1 and it has been used for analysis of the extended X‐ray absorption fine structure (EXAFS) data of the four complexes to obtain the structural parameters for (Cu1) center. For this center, the obtained Cu–Cu distance (3.2 Å) verifies the binuclear nature of all the complexes. For determining the coordination geometry around (Cu2) center in 2 and 4, a theoretical model has been generated using the crystal structure of a Cu(II) complex, [Cu(C₁₆H₁₂N₂O₂Cl₂)]. This theoretical model has been fitted to the EXAFS data of 2 and 4 to obtain the structural parameters for (Cu2) center. The present analysis shows that (Cu1) center has square pyramidal geometry involving 2N and 3O donor atoms, whereas (Cu2) center has distorted tetrahedral geometry with 2O and 2Cl donor atoms. The values of the chemical shifts and presence of typical Cu(II) X‐ray absorption near‐edge spectroscopy features suggest that copper is in the +2 oxidation state in all these complexes. The intensity of ls → 3d pre‐edge feature has been used to investigate the geometry and binuclear nature of the complexes. Copyright © 2012 John Wiley & Sons, Ltd.     

苯并三氮唑对铜和铁缓蚀作用的拉曼光谱研究

本文利用现场拉曼光谱研究了中性含氯离子溶液中苯并三氮唑在铜和铁电极表面的吸附以及成膜行为,结果表明苯并三氮唑能强烈地化学吸附于铜电极和铁电极表面,形成类似［Ｍｎ（ＢＴＡ）ｐ］的配合物膜,一定程度上阻止了膜内外物质的交换,对金属起缓蚀作用。另一方面两种金属表面配合物膜均具有电位依赖性：在铜电极表面,当外加电位由－０．５Ｖ负移至－０．９Ｖ时,发生了由［Ｃｕ（Ⅰ）（ＢＴＡ）］ｎ向［Ｃｕ（Ⅰ）Ｃｌ（ＢＴＡＨ）］４的转变;而在铁电极表面当外加电位由－０．６Ｖ负移至－１．２Ｖ时,最初形成的表面配合物［Ｆｅｎ（ＢＴＡ）ｐ］则很可能转变成类似于［Ｆｅｎ（Ｃｌ）ｐ（ＢＴＡＨ）ｍ］的配合物,从而使得ＢＴＡＨ对铜、铁的缓蚀能力均有所下降。     

Speciation of Mixtures of Copper (I) and Copper (II) Mixed Ligand Complexes by X-Ray Absorption Fine Structure Spectroscopy

Studies on speciation have been done in the mixtures of mixed ligand copper complexes. Three heterogeneous mixtures have been studied, each having one Cu(I) complex and one Cu(II) complex. The Cu(I) complex is [Cu(thu)Cl 0.5H₂O] (1) and the Cu(II) complexes are [Cu(L-phen)(bpy) H₂O] (2), [Cu(L-tyr)(phn) 2.5H₂O] (3), and [Cu(dien)(ina) 4H₂O.1/2SO₄] (4) (where thu = thiourea, phen = 1,10-phenanthroline, bpy = 2,2′-bipyridine, tyr = tyrosine, dien = diethylenetriamine, and ina = isonicotinate anion). The mixtures have been prepared by mixing the Cu(I) complex with each of the Cu(II) complexes in the ratio of 1:1 by mole percentage. The X-ray absorption fine structure (XAFS) spectra have been recorded at the K-edge of copper in the mixtures as well as in the complexes, separately. The aim of the present work is to make a study of the different methods of speciation using XAFS, viz., principal component analysis (PCA) and the target transformation (TT) method, the linear combination fitting (LCF) method, derivative spectra methods, and normalized difference absorption edge spectra (NDAES) analysis. It has been shown that these methods can be used to determine the relative quantity of the mixed ligand complexes in their mixtures.     

Antiproliferative activity and apoptosis induction,of organo-antimony(III)–copper(I) conjugates,against human breast cancer cells

Molecular Diversity - Three known organo-antimony(III)–copper(I), mixed-metal small bioactive molecules (SBAMs) of formula [Cu(tpSb)3Cl] (1), [Cu2(tpSb)4Br2] (2) and [Cu2(tpSb)4I2] (3)...     

含ME4(M＝Mo,W;E＝S,Se)单元簇合物的合成和红外谱表征

合成了一系列单立方烷Ｍ－Ｆｅ－Ｓｅ和Ｍ－Ｃｕ（Ａｇ）－Ｓ（Ｓｅ）簇合物,并用ＵＶ,ＩＲ和Ｘ－光衍射等方法对上述簇合物进行了分析。     

Electrospinning fabrication and oxygen sensing properties of Cu(I) complex-polystyrene composite microfibrous membranes

In this paper, a phosphorescent Cu(I) complex of [Cu(POP)(ECI-Phen)]BF₄, where POP=bis[2-(diphenylphosphino)phenyl]ether, and ECI-Phen=1-ethyl-2-(N-ethyl-carbazole-yl-4-)imidazo[4,5-f]1,10-phenanthroline, is incorporated into a polystyrene matrix of polystyrene (PS) to form microfibers membranes. The possibility of using the resulted composite microfibrous membranes as an optical oxygen sensor is explored. Good linearity and short response time are obtained with a sensitivity of 9.8. These results suggest that phosphorescent [Cu(POP)(ECI-Phen)]BF₄ is a promising candidate for oxygen-sensors and PS is an excellent matrix for oxygen sensing material because it owns a large surface-area-to-volume ratio and can supply a homogeneous matrix for probe molecules. Further analysis suggests that the molecular structure of diamine ligand in Cu(I) complexes is critical for sensitivity due to the characteristic electronic structure of excited state Cu(I) complexes.     

Study of chemisorption on copper low-index and stepped surfaces

Adsorption of CHCl₃, O₂, and hydrocarbons has been studied on Cu(111) and stepped surfaces using LEED, AES, and UPS at room temperature. We find that ordered Cl overlayers form upon Cu(111), Cu[3(111) × (100)], and Cu[5(111) × (100)] surfaces upon exposure to CHCl₃. Exposure to O₂ results in rearrangement of the Cu[5(111) × (100)] surface to hill-and-valley regions with large (111) areas, whereas Cu[2(111) × (100)] is stable for the same exposure. The photoemission spectra show new energy levels due to C1 above and below the Cu d band region and a small splitting of the halogen p orbitals. Effects consistent with interaction with the Cu d band are observed. Similar effects are observed with oxygen adsorption. The initial rate of Cl or O₂ chemisorption as measured by photoemission is proportional to the density of steps on these surfaces. Apparently, structural effects play an important role in chemisorption on metals (such as copper) with low density of states at the Fermi energy.