三种马来二腈基二硫烯镍(Ⅲ)离子对配合物的制备和结构表征

合成了3种离子对配合物 [1-benzyl-3-bromopyridium]⁺[Ni(mnt)₂]^- (1)，[1-(4′-flurobenzyl)-3-bromopyridiunm]⁺[Ni(mnt)₂]^- (2)，[1-(4′-cholorobenzyl)-3-bromopyridium]⁺[Ni(mnt)₂]^- (3)，(mnt=马来二腈基二硫烯，maleonitrile dithiolate)获得了单晶并解析了它们的单晶结构。     

两个基于[SMo12O40]2-和冠醚基超分子阳离子的无机-有机杂化晶体的合成及晶体结构

以18-冠-6和4-碘-苯铵盐,二苯并30-冠-10和3-氟-4-氯-苯铵盐为超分子阳离子构建单元,分别引入到Keggin型[SMo₁₂O₄₀]^2-中,使用H管扩散法和溶剂挥发法合成了无机-有机杂化材料[（4-I-Anis）（[18]crown-6）]₂[SMo₁₂O₄₀]·CH₃CN（1）和[（3-F-4-Cl-Anis）₂（DB[30]crown-10）][SMo₁₂O₄₀]·2CH₃CN（2）（4-I-Anis=4-碘-苯铵盐;3-F-4-Cl-Anis=3-氟-4-甲基苯铵盐;DB[30]crown-10=二苯并30-冠-10）。通过红外光谱、元素分析、热重分析、固态漫反射光谱和X射线单晶结构分析对化合物进行了表征。结构分析表明,晶体1和2通过非共价键自组装作用构建而成,冠醚基超分子阳离子是通过N-H…O氢键作用形成。晶体1中,在bc平面,每个[SMo₁₂O₄₀]^2-多酸阴离子被6个超分子阳离子（4-I-Anis）（[18]crown-6）围绕,形成六边形的结构;晶体2中,在bc平面,每个[SMo₁₂O₄₀]^2-多酸阴离子被4个大的超分子阳离子（3-F-4-Cl-Anis）₂（DB[30]crown-10）围绕,形成四边形的结构。热重分析表明,氢键在维持晶体1和2的稳定性上起着主要的作用。固态漫反射光谱表明,[SMo₁₂O₄₀]^2-和冠醚基超分子阳离子之间存在电荷转移作用。     

四元硫属化合物 La2CuBiS5的合成、结构及光学性能研究

通过高温固相反应合成了首例镧系-过渡金属-铋-四元硫属化合物：La₂CuBiS₅。该化合物属于正交晶系,空间群：Pnma。其结构含有沿b方向的一维[BiCuS₅^6-]_∞带,带与带之间被La³⁺离子隔开。一维[BiCuS₅^6-]_∞带由[CuS₄]四面体双链与BiS₆八面体单链通过公顶点连接而成。漫反射光谱研究表明该化合物为半导体,能隙1.30eV。理论研究表明其为直接半导体,光学能隙跃迁来源于S3p到La5d轨道的电子迁移。     

四个CyB5Q[5]-Ca配合物的晶体结构和在不同阴离子环境下的不同配位状态

在不同阴离子介质中,利用瓜环家族新成员CyB₅Q[5]与钙离子生成了4个CyB₅Q[5]-Ca配合物（1~4）,用X射线单晶衍射确定了它们的结构。晶体结构表明,在Cl^-、[ZnCl₄]^2-、[ZnCl₄]^2-+ClO₄^-和ClO₄^-环境下,分别生成了不同配位类型的配合物。     

无机-有机杂化硫属化合物[Mn（1，2-dap）2（H2O）]2（μ-Sn2Q6）（Q=S、Se）和[Mn（tren）]2（μ-Sn2S6）的合成、晶体结构与性能

采用溶剂热方法合成了3个多元硫属化合物[Mn（1,2-dap）₂（H₂O）]₂（μ-Sn₂Q₆）（Q=S（1）和Se（2））和[Mn（tren）]₂（μ-Sn₂S₆）（3）,用X-射线单晶衍射测定了化合物的结构,并通过红外光谱、紫外-可见漫反射光谱对其进行了表征。单晶结构解析表明,化合物1和2都属于正交晶系,Pccn空间群（No.56）,晶体结构是由[Mn（1,2-dap）₂（H₂O）]²⁺配合物阳离子和[Sn₂Q₆]^4-二聚体通过Mn-Q键连接而成的[Mn（1,2-dap）₂（H₂O）]₂（μ-Sn₂Q₆）低聚体,相邻的低聚体之间通过氢键相连形成三维结构。化合物3属于三斜晶系,晶体结构是由[Mn（tren）]₂（μ-Sn₂S₆）单元通过氢键连接而成的二维结构。紫外-可见漫反射光谱结果显示化合物1,2和3的带隙分别为2.5,2.1,2.4eV,属于半导体材料。     

1-β-D-呋喃核糖基-1,2,4-三唑-3-酰胺铂配合物的合成研究

cis-[Pt(DMSO)₂Cl₂], K[Pt(DMSO)Cl₃]分别与两摩尔1-β-D-呋喃核糖基-1,2,4-三唑-3-酰胺(Ribavirin)进行络合反应, 制得了高收率的二配位铂配合物; 讨论了不同摩尔的1-β-D-呋喃核糖基-1,2,4-三唑-3-酰胺与cis-[Pt(DMSO)₂Cl₂]和K[Pt(DMSO)Cl₃]进行络合反应的结果; 对[Pt (N⁴,N⁷-Ribavirin)(DMSO)Cl]配合物(1)的X衍射晶体结构进行了测定.     

配合物[1-(4′-fluorobenzyl)pyridinium]2[Ni(dto)2](dto2-=dithiooxalate dianion)的合成及晶体结构

The complex [1-(4′-fluorobenzyl)pyridinium]₂[Ni(dto)₂] (dto^2- means dithiooxalate dianion) has been pre-pared by reaction of Na₂[Ni(S₂C₂O₂)₂] and the 1-(4′-fluorobenzyl)pyridinium chloride salt. The crystallographic data for the title complex: triclinic P1, a=8.5698(8)?, b=9.3461(9)?, c=10.5361(10)?, α=67.177(2)°, β=67.398(2)°, γ=79.611(2)°, V=717.59(12)?³, Z=1. The [Ni(dto)₂]^2- anion with the Ni atom lying on an inversion center and exhibits a quasi-planar structure. An extensive hydrogen bond network of C-H…O is clearly observed. The nature and size of cation seems to play an important factor in the type of intermolecular interactions as well as the crystal packing in this kind of complexes.     

四（对叔丁基）硫杂杯[4]芳烃选择性包合四氟硼酸分子：晶体结构和理论研究

X－射线晶体衍射测定了4－(对叔丁基)硫杂杯[4]芳烃选择性地包合四氟硼酸分子。晶体学数据为：C₄₀H₄₉O₄S₄BF₄，M_r=808.88， 四方锥， 空间群 P4/nmm，a=1.5887(2), b=1.5887(2), c=0.8428(0) nm, V=2.127(2) nm³, Z=2, D_c=1.263 g·cm^-3, R₁=0.0405, _WR[I>2σ(I)]=0.1218. ¹⁹F NMR谱中，在-151.4 ppm处出现的峰，证实了四氟硼酸的存在。用Bader的分子中的原子理论方法计算了分子结构中的非共价键相互作用。结果显示，在四氟硼酸包合物中，除了F…H－C氢键作用和阳离子－阴离子的静电作用外，F^δ--C^δ+静电作用的存在也对4－(对叔丁基)硫杂杯[4]芳烃憎水空腔包合氟硼酸分子起到了稳定作用。     

ITO导电玻璃表面直接电沉积Au的机理

用循环伏安和电位阶跃法研究Au在氧化铟锡(ITO)透明导电膜玻璃表面的电沉积过程的初期阶段. 发现在ITO表面Au的电沉积经历成核过程以及受[AuCl₄]^-扩散控制的晶核生长过程. 通过改变扫描速率分析循环伏安曲线的变化, 当扫描速率较快时, 发现Au在ITO表面的沉积过程经历[AuCl₄]^-→[AuCl₂]^-→Au两步进行; 当扫描速率较慢时, 受歧化反应作用影响而只表现为一步沉积[AuCl₄]^-→Au. 通过电位阶跃实验, 验证了Au的两步沉积过程, 并求得[AuCl₄]^-的扩散系数为1.3×10^-5 cm²·s^-1. 将成核曲线与理论曲线对照, 得出Au在ITO表面的沉积符合瞬时成核理论. 通过场发射扫描电镜(FE-SEM)对Au核形貌进行分析, 根据扫描电镜图可以得到阶跃时间和阶跃电位对电沉积Au的形貌的影响.     

两个基于多金属氧酸盐和冠醚基超分子阳离子的有机无机杂化材料的合成及晶体结构

以二苯并18-冠-6,3-氟-4-甲基苯铵盐以及多金属氧酸盐[Mo₆O₁₉]^2-为原料,使用溶剂挥发法合成了有机无机杂化材料[（3-F-4-MeAnis）（DB[18]crown-6）]₂[Mo₆O₁₉]·2CH₃CN （1）（3-F-4-MeAnis=3-氟-4-甲基苯铵盐;DB[18]crown-6=二苯并18-冠-6）;以18-冠-6,2-氟-4-甲基苯铵盐以及多金属氧酸盐[SMo₁₂O₄₀]^2-为原料,运用H管扩散法制备了晶体材料[（2-F-4-MeAnis）（[18]crown-6）]₂[SMo₁₂O₄₀]·2CH₃CN （2）（2-F-4-MeAnis=2-氟-4-甲基苯铵盐;[18]crown-6=18-冠-6）。通过红外光谱、元素分析、热重分析和X射线单晶结构分析对化合物进行了表征。结构分析表明,晶体1和2通过非共价键自组装作用构建而成,冠醚基超分子阳离子是通过N-H…O氢键作用形成。在晶体1和2中,超分子阳离子和多酸阴离子交错堆积形成包合物结构,沿着a轴方向观察,发现每个多酸阴离子被6个超分子阳离子包围着形成六边形堆积结构。通过晶体结构研究和热重分析表明,二苯并18-冠-6中的苯环在维持晶体1的稳定性方面具有重要的作用。     

在四氯合锌离子诱导下反式六元瓜环与碱金属离子构筑的配位超分子自组装体

在盐酸介质中,通过四氯合锌离子诱导,碱金属离子能与反式六元瓜环端口羰基氧原子直接配位构筑形成超分子自组装体。单晶结构表明在HCl介质中,四氯合锌离子形成“蜂巢结构”,而且在[ZnCl₄]^2-诱导作用下,碱金属离子和反式六元瓜环端口羰基氧直接配位形成一维超分子自组装体而填充在“蜂巢结构”中。     

在四氯合锌离子诱导下反式六元瓜环与碱金属离子构筑的配位超分子自组装体

在盐酸介质中,通过四氯合锌离子诱导,碱金属离子能与反式六元瓜环端口羰基氧原子直接配位构筑形成超分子自组装体。单晶结构表明在HCl介质中,四氯合锌离子形成"蜂巢结构",而且在[ZnCl₄]^2-诱导作用下,碱金属离子和反式六元瓜环端口羰基氧直接配位形成一维超分子自组装体而填充在"蜂巢结构"中。     

Extraction equilibria for the 4-(2-Pyridylazo)-Resorcinol-Nickel(II)-Quaternary-Ammonium salt system

The extraction equilibria of nickel(II)-PAR complexes with tetradecyldimethylbenzylammonium chloride(Q⁺Cl^?) are investigated. Two kinds of nickel complex are extracted by chloroform: Ni(HR)₂,nQ⁺Cl^?₍₀₎(?⁵⁰⁰ = 3.73·10⁴l mol^?1cm^?1) at about pH 5 and 2Q⁺ NiR^2-_2(o)(?⁵⁰⁰ = 8.08·10⁴ l mol^?1 cm^?1) at above pH 8.5. The extraction constant for 2Q⁺ NiR^2-_2(o) was evaluated as [2Q⁺ NiR^2-₂]₀/[NiR^2-₂] [Q⁺]² = 10^11.16 at μ = 0.1 (Na₂SO₄. Synergic extraction studies of the Ni(HR)₂ species under slightly acidic conditions show that the species is Ni(HR)₂(H₂O)₂in auqeous solution and is extracted into chloroform as the adduct Ni(HR)₂(TBP)₂ (?⁵³⁵ = 3.57·10⁴ l mol^?1 cm^?1. Based on the extraction behavior of these complexes, the structures of the Ni²⁺—PAR complexes are discussed.     

Syntheses and Crystal Structures of BaAgTbS3, BaCuGdTe3, BaCuTbTe3, BaAgTbTe3, and CsAgUTe3

Five new quaternary chalcogenides of the 1113 family, namely BaAgTbS₃, BaCuGdTe₃, BaCuTbTe₃, BaAgTbTe₃, and CsAgUTe₃, were synthesized by the reactions of the elements at 1173–1273 K. For CsAgUTe₃ CsCl flux was used. Their crystal structures were determined by single‐crystal X‐ray diffraction studies. The sulfide BaAgTbS₃ crystallizes in the BaAgErS₃ structure type in the monoclinic space group C³,_2h‐C2/m, whereas the tellurides BaCuGdTe₃, BaCuTbTe₃, BaAgTbTe₃, and CsAgUTe₃ crystallize in the KCuZrS₃ structure type in the orthorhombic space group D¹_,2⁷_,h‐Cmcm. The BaAgTbS₃ structure consists of edge‐sharing [TbS₆^9–] octahedra and [AgS₅^9–] trigonal pyramids. The connectivity of these polyhedra creates channels that are occupied by Ba atoms. The telluride structure features ²_∞[MLnTe₃^2–] layers for BaCuGdTe₃, BaCuTbTe₃, BaAgTbTe₃, and ²_∞[AgUTe₃^1–] layers for CsAgUTe₃. These layers comprise [MTe₄] tetrahedra and [LnTe₆] or [UTe₆] octahedra. Ba or Cs atoms separate these layers. As there are no short Q ··· Q (Q = S or Te) interactions these compounds achieve charge balance as Ba²⁺M⁺Ln³⁺(Q^2–)₃ (Q = S and Te) and Cs⁺Ag⁺U⁴⁺(Te^2–)₃.     

A kinetic study of the permanganate—oxalate reaction and kinetic determination of manganese(II) and oxalic acid by the stopped-flow technique

The reduction of permanganate by oxalate in the presence of manganese(II) ion in acidic media is described. All reactions were run at 525 nm and constant ionic strength 1.0 M. The reaction was found to obey the rate expression —$\text{d[MnO}{}_4{}^{\mathrm{-}}\text{]}\text{d}\text{t}$ = k [Mn²⁺] [C₂O₄^2-]² [MnO₄^-] [H⁺]^-2 = k' [MnC₂O₄] [MnO₄^-]. The values of k and k' were shown to be 5.4 × 10⁴ M^-1 s^-1 and 8.2 × 10⁴ M^-1 s^-1, respectively. Reaction rate methods for the determination of manganese(II) and oxalic acid are reported. The rate of disappearance of permanganate was monitored automatically and related directly to manganese-(II) and oxalic acid concentrations. Manganese(II) in the ranges 1–10 × 10^-4 M and 1–10 × 10^-3 M and oxalic acid in the range 0–20 μg ml^-1 can be determined very rapidly with a precision of 1–2%.     

Kinetic Study of the Bromine-Catalyzed Isomerization of Maleic Acid in Aqueous Ce(IV)-Br−-H2SO4 Medium

The presence of ceric and bromide ions catalyzes the isomerization of maleic acid (MA) to fumaric acid (FA) in aqueous sulfuric acid. A kinetic study of this bromine-catalyzed reaction was carried out. The reaction between ceric ion and maleic acid is first order with respect to Ce(IV). For [Ce(IV)]₀=5.0×10^?4 M, [H₂SO₄]₀=1.2 M, μ=2.0 M (adjusted by NaClO₄), and [MA]₀=(0.5–1.0)M, the observed pseudo-first-order rate constant (k₀₃) at 25° is k₀₃=7.622×10^?5 [MA]₀/(1+0.205[MA]₀). The reaction between ceric and bromide ions is first order with respect to Ce(IV). For [Ce(IV)]₀=5.0×10^?4 M, [H₂SO₄]₀=1.2 M, μ=2.0 M, and [Br^?]₀=(0.025–0.150)M, the pseudo-first-order rate constant (k₀₂) at 25° is k₀₂= (4.313±0.095)x10^?2[Br^?]²+(2.060±0.119)x10^?3[Br^?]. The reaction of Ce(IV) with maleic acid and bromide ion is also first order with respect to Ce(IV). For [Ce(IV)]₀=5.0×10^?4 M, [MA]₀=0.75 M, [H₂SO₄]₀=1.2 M, μ=2.0 M, and [Br^?]₀= (0.025–0.150)M, the pseudo-first-order rate constant (k₀₃) at 25° is k₀₃= (5.286±0.045)x10^?2[Br^?]²+(3.568±0.056)x10^?3[Br^?]. For [Ce(IV)]₀=5.0 × 10^?4 M, [Br^?]₀=0.050 M, [H₂SO₄]₀=1.2 M, μ=2.0 M, and [MA]₀=(0.15–1.0)M at 25°, k₀₃=(2.108×10^?4+2.127×10^?4[MA]₀)/(1+0.205[MA]₀). A mechanism is proposed to rationalize the results. The effect of temperature on the reaction rate was also studied. The energy barrier of Ce(IV)—Br^? reaction is much less than that of Ce(IV)—MA reaction. Maleic and fumaric acids have very different mass spectra. The mass spectrum of fumaric acid exhibits a strong metastable peak at m/e 66.5.     

Structure of glutarate-containing uranyl coordination polymers with organic amides

Three new uranyl complexes [UO₂(C₅H₆O₄)(Meur)] (I), [UO₂(C₅H₆O₄)(Aa)] (II), and [(UO₂)₂(C₅H₆O₄)₂(Tmur)₂(H₂O)] ? H₂O (III), where C₅H₆O₄ ^2? is glutarate anion, Meur is methylcarmamide, Aa is acetamide, and Tmur is tetramethylcarbamide, have been synthesized and characterized by X-ray diffraction. 1D uranyl-glutarate complexes have been found in the structures of all compounds; in I and II their composition is [UO₂(C₅H₆O₄)(L)] and crystallographic formula is AQ²¹M¹ (where A = UO₂ ²⁺, Q²¹ = C₅H₆O₄ ^2-, and M¹ = L = Meur or Aa). In crystals III, chain complexes have the composition [(UO₂)₂(C₅H₆O₄)₂(Tmur)₂(H₂O)] and crystallographic formula A₂Q₂ ⁰²M₃ ¹ (where A = UO₂ ²⁺, Q⁰² = C₅H₄O₆ ^2-, and M¹ = Tmur or H₂O). All compounds were characterized by IR spectroscopy. Structural features of all known complexes of uranyl glutarate with neutral ligands have been discussed.     

Electron impact mass spectra of some salts of carboxylic acids with alkali (group Ia) metals

Thirteen of the salts of the alkali metals (Li, Na, K, Rb, Cs) with acetic, 2,2-dimethylpropionic, trifluoroacetic and heptafluorobutyric acid have been found to be sufficiently volatile to give mass spectra under normal electron impact conditions. The metal containing ions observed include (M=metal): [M]⁺, [MO]⁺, [MCO₂]⁺, [M₂]^+·, [M₂O]^+·, [M₂CO₂]^+· and the cluster ions [M_n (carboxylate)_n-1]⁺ for n = 2–8.     

Partial molar compressibilities of halogeno complexes of platinum and palladium in aqueous solutions at 25°C

Ultrasonic propagation velocities were measured at 25°C for dilute aqueous solutions of K₂[PtX₄], K₂[PtX₆], K₂[PdX₄], and K₂[PdX₆] (X = Cl, Br, or SCN). The data obtained were combined with our previous density data to calculate the adiabatic compressibilities of each solution. Then, the infinite dilution values of partial molar adiabatic compressibilitiesK _o ^s were evaluated. By subtraction of theK _o ^s (K⁺) from those of the complexes, the values ofK _o ^s for the halogeno complex ions [PtX₄]^2-, [PtX₆]^2-, [PdX₄]^2- and [PdX₆]^2- were determined. The values for the thiocyano complex ions [Pt(SCN)₄]^2- and [Pt(SCN)₆]^2- are positive, showing that the interaction of the ligand SCN^- with the solvent water is very weak. Although the V ₂ ^o behavior of the complex ions [PtCl₆]^2- and [PdCl₆]^2- differed only slightly, compressibility measurement has indicated that the ion [PdCl₆]_2- interacts more strongly than [PtCl₆]^2-.     

Kinetics and mechanism of tris-quinolinatochromium(III) aquation in HClO<Subscript>4</Subscript> media

The chromium(III)-quinolinato complexes, [Cr(quinH)₃]⁰, [Cr(quinH)₂(H₂O)₂]⁺ and [Cr(quinH)(H₂O)₄]²⁺ (where quinH = N,O-bonded quinolinic acid anion), were obtained and characterized in solution. The tris-quinolinato complex undergoes acid-catalyzed aquation to give the diaqua-product, whereas subsequent ligand liberation processes are exceptionally slow. Kinetics of the aquation were studied spectrophotometrically over the 0.1–1.0 M HClO₄ range, at I = 1.0 M. The first aquation stage, the chelate-ring opening at the Cr-N bond, is much faster than the second one. The following rate laws were established: k _obs = k ₁ + k ₋₁/Q ₁[H⁺] and k _obs = k ₂ Q ₂[H⁺]/(1 + Q ₂[H⁺]), where k ₁ and k ₂ are the rate constants for the chelate-ring opening and the ligand liberation, respectively, k ₋₁ is the rate constant of the chelate-ring closure, Q ₁ and Q ₂ are the protonation constants of the pyridine nitrogen and 3-carboxylate group in the one-end bonded intermediate, respectively. Kinetic parameters have been determined and the mechanism has been discussed.