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1.
在乙醇和水的混合溶液中, 将N,N'-二(邻氧乙酸)苄叉丙二胺(1)与氯化铜反应, 获得配合物Cu(Ⅱ)L1·H2O·0.25CH3CH2OH(2)[L1=N,N'-二(邻氧乙酸)苄叉丙二胺]; 当将反应混合溶液的pH值调至8~9, 获得Cu(Ⅱ)ClL2·3H2O(3)[L2=N-(邻氧乙酸)苄叉丙二胺]; 将N,N'-二(邻氧乙酸)苄叉丙二胺(1)与氯化镍反应, 获得配合物Ni(Ⅱ)L1·2.75H2O(4). 用元素分析、1H NMR和IR谱等方法对所合成的化合物1和配合物2~4进行了表征, 并测定了配合物2~4的晶体结构. 在配合物2中, 铜原子为六配位[CuN2O4], 在配合物3中, 铜原子为六配位[CuN2O3Cl], 在配合物4中, 镍原子为六配位[NiN2O4], 三个配合物均为畸变八面体结构. 抑菌活性大小的顺序: 配合物3>配合物2>化合物1.  相似文献   

2.
在乙醇和水的混合溶液中,将N,N′-二(邻氧乙酸)苄叉丙二胺(1)与氯化铜反应,获得配合物Cu(Ⅱ)L1.H2O.0.25CH3CH2OH(2)[L1=N,N′-二(邻氧乙酸)苄叉丙二胺];当将反应混合溶液的pH值调至8~9,获得Cu(Ⅱ)ClL2.3H2O(3)[L2=N-(邻氧乙酸)苄叉丙二胺];将N,N′-二(邻氧乙酸)苄叉丙二胺(1)与氯化镍反应,获得配合物Ni(Ⅱ)L1.2.75H2O(4).用元素分析、1H NMR和IR谱等方法对所合成的化合物1和配合物2~4进行了表征,并测定了配合物2~4的晶体结构.在配合物2中,铜原子为六配位[CuN2O4],在配合物3中,铜原子为六配位[CuN2O3Cl],在配合物4中,镍原子为六配位[NiN2O4],三个配合物均为畸变八面体结构.抑菌活性大小的顺序:配合物3>配合物2>化合物1.  相似文献   

3.
两种镍的配合物[Ni(NH2CH2CH2CH2NH2)3]Cl2 (1)和[Ni(C6H4N2H4)2Cl2] (2)已经被合成并且通过红外和单晶X射线衍射分析对其进行了表征。在配合物1中,镍原子处于手性假八面体[NiN6]的几何构型中,它与三个1,3-丙二胺分子形成了三个六元环。在配合物2中,镍原子除了与两个o-苯二胺分子通过四个Ni-N键形成两个五元环外,它还与两个Cl原子配位形成了反式Ni-Cl2,这不同于以往报道过的镍的二胺配合物。这两个镍的配合物被MAO, MMAO或Et2AlCl活化后,对乙烯的二聚合或三聚合显示了很好的催化活性[对于配合物2,催化活性达到3.59×106 g mol-1 (Ni) h-1]。  相似文献   

4.
[ZnN(CH2CH2NH2)2(CH2CH2N=CHC6H4O)]·Pic的合成与晶体结构   总被引:1,自引:0,他引:1  
在不加任何碱的条件下,三[2-(亚水杨基胺)乙基]胺与苦味酸锌[Zn(Pic)26H2O]在乙醇中反应,得到了较为少见的多胺单缩合西夫碱配体的配合物[ZnN(CH2CH2NH2)2(CH2CH2N=CH-C6H4O)]Pic。化学式为C19H23N7O8Zn,Mr=542.81,晶体属三斜晶系,空间群为P,晶胞参数为a=0.7494(3),b=1.1917(5),c=1.3142(6)nm,a=78.111(7),b=79.093(7),g=78.577(7),V=1.1121(8)nm3,Dc=1.621g/cm3,m(MoKa)=1.167mm-1,Z=2,F(000)=560,在1.602s(I)的可观测点为2433个,最终偏离因子R=0.0555,wR=0.1139。配合物中Zn(II)与配体的4个N原子和1个O原子配位形成变形的三角双锥结构,桥头N和O为锥顶,4个配位N中桥头N与金属离子的配位作用最弱。晶体通过p-p堆积和分子内、分子间的氢键作用形成二维层状超分子结构。  相似文献   

5.
由二甲胺与H6P2W18O62·nH2O合成了电荷转移化合物α-H6P2W18O62·3(CH3)2NH·H2O.单晶结构解析结果表明晶体属单斜晶系,空间群为P21/c,晶胞参数a=1.2964(3)nm,b=1.3621(3)nm,c=4.155 9(8)nm,β=90.02(3)°,V=7.338(3)nm3,Z=4.标题化合物具有可逆光色性.热分析表明,化合物阴离子在430.5℃左右分解.  相似文献   

6.
二(o-甲基苄基)二氯化锡与N-(o-甲基苄基)羟胺在碱性条件下反应,合成了有机锡配合物{[(o-MeC6H4CH2)2Sn(O)]2(o-MeC6H4CH2NHO)}2。经X-射线衍射方法测定了化合物的晶体结构。该化合物晶体属三斜晶系,空间群P-1,晶体学参数 a =1.0604(5) nm,b =1.3078(7) nm,c = 1.3742(47 nm,α=105.174(12)?,β = 90.229(7)?,γ=101.028(6)?,Z = 1,V =1.8025(15) nm3,Dc=1.522Mg•m-3,?(MoKa)= 1.423 mm-1,F(000)= 834,R1=0.0455,wR2=0.1017。化合物是三个以Sn2O2构成的平面四元环组成的梯状结构,锡原子均为五配位的畸变三角双锥构型。测定了配合物的体外抗癌活性,结果表明配合物对WiDr和MCF-7等癌细胞有一定的抑制能力。  相似文献   

7.
由二甲胺与H6P2W18O62·nH2O合成了电荷转移化合物α H6P2W18O62·3(CH3)2NH·H2O.单晶结构解析结果表明晶体属单斜晶系,空间群为P21/c,晶胞参数:a=1.2964(3)nm,b=1.3621(3)nm,c=4.1559(8)nm,β=90.02(3)°,V=7.338(3)nm3,Z=4.标题化合物具有可逆光色性.热分析表明,化合物阴离子在430.5℃左右分解.  相似文献   

8.
邻菲罗啉、己二酸和硝酸铜在水溶液中反应得到一种新颖的四核铜配合物[Cu4(phen)4(NO3)2(H2O)2- (adip)4/4(Hadip)4/2](NO3)2•2H2O (其中H2adip=己二酸), 并经元素分析, IR, UV, TG和X射线单晶衍射分析表征. 该配合物晶体属三斜晶系, 空间群, a=1.0146(2) nm, b=1.0261(2) nm, c=1.8285(4) nm, α=91.66(3)°, β=92.19(3)°, γ=112.76(3)°, V=1.7520(6) nm3, Z=1, Dc=1.639 g/cm3, C66H66Cu4N12O28, Mr=1729.47, F(000)=886, μ=1.294 mm-1, R1和wR2分别为0.0447和0.1141. 己二酸根通过4个羧基O将两个U形双核亚单元联接成具有一个对称中心的双U形四核结构, 其中每个U型亚单元包含晶体学上不对称的2个Cu(II)原子. 每个Cu(II)离子均处于畸变的四方锥配位环境, 除与己二酸氢根(Hadip)、己二酸根(adip)和邻菲罗啉(Phen)的N, O配位形成锥底平面外, 其中的1个Cu(II)与水配位, 而另一个Cu(II)则与硝酸根配位. 配合物晶体结构中存在着广泛的氢键和p×××p作用.  相似文献   

9.
水对二氧化碳插入TpRu(PPh3)(CH3CN)H生成甲酸根配合物的影响   总被引:1,自引:0,他引:1  
分别研究了在干燥THF及H2O/THF条件下CO2与TpRu(PPh3)(CH3CN)H(Tp=Hydrotris(pyrazolyl)borate)的反应, 发现水对CO2插入TpRu(PPh3)(CH3CN)H的反应具有显著促进作用. 原位高压NMR研究显示, 在水存在下, CO2插入Ru-H键形成水合甲酸根配合物TpRu(PPh3)(CH3CN)(η1-OCHO)H2O, 其中甲酸根配体与溶剂中水分子形成分子间氢键. B3LYP水平的理论计算表明, CO2插入TpRu(PPh3)(CH3CN)H 中Ru-H键的能垒由于水的存在而显著降低; 在过渡态, CO2分子中碳原子的亲电性由于其氧原子与水分子形成氢键而得到增强. TpRu(PPh3)(CH3CN)(η1-OCHO)*H2O很快转化为另一甲酸根配合物TpRu(PPh3)(H2O)(η1-OCHO), 并与之达成平衡. 后者由于甲酸根配体与水分子配体间形成分子内氢键而稳定.  相似文献   

10.
程林  陶贵德  张年荣 《合成化学》2005,13(3):267-269,i003
用1,2-二茚基乙烷[(CH2)2(C9H7)2]与四配位的三[三甲基硅基胺基]镱的络合物{[(Me3Si)2N]3Yb(Ⅲ)(μ-Cl)Li(THF),}反应,生成桥联二茚基镱的胺基配合物[(CH2)2(C9H6)2YbN(SiMe3)2],其结构经^1HNMR,IR,XFD),GPC和元素分析表征,并初步研究了其对甲基丙烯酸甲酯聚合反应的催化活性。  相似文献   

11.
Cis-dioxo-catecholatotungsten(VI) complex anion[W^(VI)O2-(OC6H4O)2]^2- was obtained with discrete protonated ethylenediamine (NH2CH2CH2NH3)^ cations by the reaction of tetrabutyl ammonium decatungstate with catechol in the mixed solvent of CH3OH,CH3CN and ethylenediamine,and compared with its molybdenum anaogue [Mo^(V) O2(OC6H4O)2]^3- by crystal structure,UV,EPR,The results of the UV and EPR spectra show that tungsten is less redox active than molybdenum since the molybdenum is reduced from Mo(VI) to Mo(V) but tungsten stays in the original highest oxidized state Mo(VI) when they are crystallized from the solution above.It is worthy to note that [W^(VI)O2(OC6H4O)]^2- shows the same coordination structure as its molybdenum analogue in which the metal center exhibits distorted octahedral coordination geometry with two cis-dioxocatecholate ligands and might have the related coordination structure feature with the cofactor of flavoenzyme because [Mo^(V)O2(OC6H4O)2]^3- presented essentially the same EPR spectra as flavoenzyme.The NMR studies on the interaction of the title complex with ATP reveal that the reduction of W(VI) to W(V) occurs when the title complex is dissolved in D2O and the W(V) is oxidized again when ATP solution is mixed with original solution and the hydrolysis of the catecholato ligand take places at mean time being monitored by ^1H NMR and ^13C NMR spectra.  相似文献   

12.
Cis-dioxo-metal complex ( NH3CH2CH2NH2 ) 2.5 [ Mo0.5^(V)W0.5^(VI)O2 ( OC6H4O ) 2] 1 was obtained by the reaction of tetra-butyl ammonium hexamolybdotungstate with 1, 2-dihydroxybenzene in the mixed solvent of CH3OH, CH3CN and ethylenediamine,and characterized by X-ray diffraction, UV-vis and EPR analysis. Compared with its analogous complexes (NH3CH2CH2NH2)3[Mo^(V)O2(OC6H40)2] 2 and (NH3CH2CH2NH2)2[W^(VI)O2(OC6H4O)2] 3, the results show that tungsten(VI) is less active in redox than molybdenum (VI) and that the change of the valence induced by substitution of W(VI) for Mo(V) in EMO2(OC6H40)2]n- does not influence the coordination geometry of the complex anion in which the metal center exhibits distorted octahedral coordination with cis-dioxo catechol. The responses to EPR of complexes 1 and 2 are active but complex 3 is silent,and the UV-vis spectra exhibited by the three complexes are obvious different because of the different electronic configuration between the central Mo(V) and W(VI) ions in the complexes.It is noteworthy that complexes 1 and 2 have the similar EPR signal to flavoenzyme, suggesting that the three complexes have the same coordination geometry feature with the co-factor of flavoenzyme.  相似文献   

13.
A new three-dimensional open-framework cobalt(Ⅱ)-tungsten(Ⅵ) phosphate,[H3NCH2CH2NH3]3·[Co3W4P4O28](1) has been synthesized from the reaction of CoCl2·6H2O,WO3,H3PO4,ethylenediamine and H2O.The title compound was fully characterized by infrared spectroscopy,elemental analysis,magnetic properties,thermogravimetric analysis,XPS and single-crystal X-ray diffraction.The compound crystallized in a tetragonal space group I4(1)/a with a=1.7118(4) nm,c=1.0773(2) nm,V =3.1568(11) nm3,Z =4.  相似文献   

14.
在三乙胺存在下利用三苄基氯化锡和2,6-吡啶二甲酸,以1:1摩尔比反应,合成了七配位二聚体{(PhCH2)2Sn[2,6-(O2C)2C5H3N](CH3OH)}2.通过元素分析、红外光谱和核磁共振氢谱对其结构进行了表征.用X射线单晶衍射法测定了该化合物的晶体结构.化合物为三斜晶系,P1空间群,晶胞参数a=0.9625(6)nm,b=1.0947(9)nm,c=1.996(3)nm,α=90.00(2)°,β=87.69(3)°,γ=90.00(3)°,Z=2,V=2.102(6)nm3,μ=1.248mm-1,F(000)=1000,R1=0.0476,wR2=0.0782.化合物中2个锡原子呈七配位畸变五角双锥构型.生物活性测试结果表明,该化合物具有较强的体外抗肿瘤活性.  相似文献   

15.
马志宏  李放  刘晓焕  林进 《有机化学》2009,29(8):1294-1297
由C9H6-n-BuH与Ru3(CO)12在二甲苯中加热回流, 合成了一个新的双核配合物(η5-C9H6-n-Bu)2Ru2(CO)4. 通过元素分析、红外光谱、核磁共振氢谱对其结构进行了表征. 用X射线单晶衍射法测定了(η5-C9H6-n-Bu)2Ru2(CO)4的结构, 结果表明: 晶体属于三斜晶系, Pī空间群, a=0.8880(5) nm, b=1.2337(8) nm, c=1.3235(8) nm, α=83.054(12)°, β=76.683(10)°, γ=77.036(12)°, V=1.3713(15) nm3, Dc=1.588 g•cm-3, m=1.134 mm-1, F(000)=658, Z=2, R1=0.0993, wR2=0.2459.  相似文献   

16.
在含水溶剂、酸性环境中合成了镧系四元混合阴离子配合物[Pr(CH3CH2COO)2(NO3)(phen)]2并解析了其晶体结构,三斜,空间群P1,a=0.9650(2) nm, b=1.2949(4) nm,c=0.8994(2)nm, α=95.37(3)°,β=111.05(2)°,γ=102.87(2)°,V=1.0037(5) nm3, Dc=1.758 g·cm-3, Z=1, F(000)=528, μ(Mo)=24.64 cm-1, R=0.024, RW=0.034。四个丙酸根呈二种配位方式,Pr3+为九配位。  相似文献   

17.
Oxide methanesulfonates of Mo, U, Re, and V have been prepared by reaction of MoO(3), UO(2)(CH(3)COO)(2)·2H(2)O, Re(2)O(7)(H(2)O)(2), and V(2)O(5) with CH(3)SO(3)H or mixtures thereof with its anhydride. These compounds are the first examples of solvent-free oxide methanesulfonates of these elements. MoO(2)(CH(3)SO(3))(2) (Pbca, a=1487.05(4), b=752.55(2), c=1549.61(5) pm, V=1.73414(9) nm(3), Z=8) contains [MoO(2)] moieties connected by [CH(3)SO(3)] ions to form layers parallel to (100). UO(2)(CH(3)SO(3))(2) (P2(1)/c, a=1320.4(1), b=1014.41(6), c=1533.7(1) pm, β=112.80(1)°, V=1.8937(3) nm(3), Z=8) consists of linear UO(2)(2+) ions coordinated by five [CH(3)SO(3)] ions, forming a layer structure. VO(CH(3)SO(3))(2) (P2(1)/c, a=1136.5(1), b=869.87(7), c=915.5(1) pm, β=113.66(1)°, V=0.8290(2) nm(3), Z=4) contains [VO] units connected by methanesulfonate anions to form corrugated layers parallel to (100). In ReO(3)(CH(3)SO(3)) (P1, a=574.0(1), b=1279.6(3), c=1641.9(3) pm, α=102.08(2), β=96.11(2), γ=99.04(2)°, V=1.1523(4) nm(3), Z=8) a chain structure exhibiting infinite O-[ReO(2)]-O-[ReO(2)]-O chains is formed. Each [ReO(2)]-O-[ReO(2)] unit is coordinated by two bidentate [CH(3)SO(3)] ions. V(2)O(3)(CH(3)SO(3))(4) (I2/a, a=1645.2(3), b=583.1(1), c=1670.2(3) pm, β=102.58(3), V=1.5637(5) pm(3), Z=4) adopts a chain structure, too, but contains discrete [VO]-O-[VO] moieties, each coordinated by two bidentate [CH(3)SO(3)] ligands. Additional methanesulfonate ions connect the [V(2)O(3)] groups along [001]. Thermal decomposition of the compounds was monitored under N(2) and O(2) atmosphere by thermogravimetric/differential thermal analysis and XRD measurements. Under N(2) the decomposition proceeds with reduction of the metal leading to the oxides MoO(2), U(3)O(7), V(4)O(7), and VO(2); for MoO(2)(CH(3)SO(3))(2), a small amount of MoS(2) is formed. If the thermal decomposition is carried out in a atmosphere of O(2) the oxides MoO(3) and V(2)O(5) are formed.  相似文献   

18.
1 INTRODUCTION  Organolanthanidecomplexeshavebeenextensivelystudied.However,thestud-iesofindenylrareearthcomplexeswererelativelylimited[1].Althoughaseriesoftri-indenyltetrahydrofuranatolanthanide((C9H7)3Ln·THF)havebeensynthesizedandstudiedbyTsutsuiandGyslingabout30yearsago[2],onlyafewcrystalstruc-turesofindenyllanthanidecomplexeshavebeenreported[1].Moreover,mostofthereportedindenyllanthanidecomplexesweresynthesisedbymetatheticalreactionsofanhydrouslanthanidetrichlorideswithindenyls…  相似文献   

19.
在含有HF的体系中, 用乙二胺作模板剂, 通过水热方法合成了一个新的三维亚磷酸铟[In4(HPO3)7(H2O)3](NH3CH2CH2NH3)·(H2O), 并对其进行了红外光谱、热重、ICP和CHN元素分析等表征. 单晶X射线衍射分析结果表明, 该化合物属于三方晶系, P3空间群, 晶胞参数a=1.37883(7) nm, c=0.93450(9) nm, V=1.53862(2) nm3, Z=2, Dc=2.489 Mg/m3, 最终一致性因子R1[I >2σ(I)]=0.0526, wR2[I>2σ(I)]=0.1328, GOF=1.082. 其结构中的InO6八面体、InO5(H2O)八面体和HPO3假四面体通过O原子共顶点连接, 分别沿a, b轴方向形成含有十二元环的交叉孔道, 客体水分子和双质子化的乙二胺分子存在于孔道中.  相似文献   

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