两个Fe(II)配合物的合成、结构、磁性和穆斯堡尔谱 —— 配合物[Fe(dpq)(Mepy)2(NCS)2]的室温自旋交叉行为

设计制备了两个新的配合物[Fe(dpq)(Mepy)2(NCS)2](1)和[Fe(Medpq)(Mepy)2 (NCS)2](2)。室温下X衍射结果表明配合物（2）为正交晶系,晶胞参数为a = 15.057(3) Å, b = 14.569(3) Å, c = 13.180(3) Å, a = 90.00°, b=90.00°, g = 90.00°。[FeN6] 变型八面体构型中,两个NCS-与其顺式配位,其余四个氮分别来自Medpq和两个Mepy。变温磁化率和穆斯堡尔谱学的研究表明配合物（1）（2）存在自旋交叉,配合物（1）的自旋转换温度为 T1/2 =340K,而配合物（2）在低温条件下的转换是不完全的。     

配合物[Ni(EDTB)]·2Cl·CH3OH·C2H5OH的合成、晶体结构及 SOD模拟活性的研究

报道六齿配体N,N,N',N'四(2-苯并咪唑亚甲基)-1,2-乙二胺(EDTB)及单核镍(Ⅱ)配合物[Ni(EDTB)]·2Cl·CH3OH·C2H5OH的合成、晶体结构和SOD模拟活性.该配合物为三斜晶系,P1-空间群,a=1.0931(2)nm,b=1.1693(2)nm,c=1.6756(4)nm,a=76.042(3)°,β=88.787(3)°,γ=72.044(3)°,V=1.9740(7)nm3,Dc=1.321 g/cm3,Z=2,F(000)=824,μ=0.670mm-1.最终因子R[I＞2σ(I)]R1=0.0011,wR2=0.1497;R(全部数据)R1=0.0870,wR2=0.1604.结构分析表明,镍(Ⅱ)分别与配体中的四个苯并咪唑氮和两个亚胺基氮配位形成扭曲的八面体构型.改良的邻苯三酚自氧化活性测定表明,该配合物具有较高的SOD模拟活性.     

一种新颖的二维4f-3d-5d多金属-异烟酸配合物的合成、晶体结构和磁性研究

通过水热方法合成了一种新颖的异金属金属-异烟酸无机-有机杂化体[Zn0.5(H2O)]{(Hg2Cl5)[Er(C6NO2H4)3(H2O)2]}(HgCl2)·0.5CH3OH·0.5H2O (1)并对其进行了单晶X-射线衍射结构表征。该化合物是首例4f-3d-5d多金属-异烟酸配合物。化合物1属于单斜晶系C2/c空间群,每个单胞中有8个分子,晶体学参数为：a = 34.165(4) Å,b = 9.4692(8) Å,c = 24.575(3) Å,β = 115.090(5)°,V = 7200(1) Å3,C18.50H21Cl7ErHg3N3O10Zn0.50,Mr = 1495.25,Dc = 2.759 g/cm3,T = 293(2) K,μ(MoKα) = 15.954 mm-1,F(000) = 5400, R1/wR2 = 0.0561/0.0909,共有6468个独立衍射点,其中[I > 2σ(I)]的有3157个。该化合物具有新颖的二维{(Hg2Cl5)[Er(C6NO2H4)3(H2O)2]}层状结构,由Hg2Cl5–连接[Er(C6NO2H4)3(H2O)2]链形成。该二维层和氯化汞及结晶水之间通过氢键形成三维结构,甲醇分子和水合锌离子位于该三维结构的空隙中。对化合物1的磁性测试显示该化合物具有反铁磁作用。     

二烷基荒酸砷(Ⅲ)、铋(Ⅲ)配合物的合成、晶体结构及抑菌活性

合成了二丁基二硫代氨基甲酸砷[(C9H18NS2)3As(Ⅲ)](1)和二甲基二硫代氨基甲酸铋[(C3H6NS2)3Bi(Ⅲ)](2)两种配合物。通过元素分析、红外光谱、1HNMR、热重对其进行表征,并用X-射线单晶衍射测定了晶体结构。配合物1属于三斜晶系,P 空间群,晶胞参数为：a = 1.075 0(15) nm,b = 1.214 3(16) nm,c = 1.621(3) nm,α = 69.15(2)°, β = 75.36(3)°, γ = 88.17(2)°;配合物2也属于三斜晶系,P 空间群,晶胞参数为：a = 0.992 9(3) nm,b = 0.993 0(3) nm,c = 1.142 7(3) nm,α = 64.495(4)°, β = 80.400(4)°, γ = 64.772(4)°。利用琼脂扩散法测试了配合物的抑菌活性, 结果表明配合物1对5种受试菌株具有较强的抑菌活性,配合物2则仅有弱的拟菌活性。     

有机三膦酸锌配合物的合成与晶体结构

合成了一种新型的有机三膦酸配体H6aptp[1-氨基-丙基-1,1,3-三膦酸],并在水热条件下合成了它的锌配合物[Zn(H4aptp)(2,2′-bipy)(H2O)].2H2O.用红外、质谱、元素分析、热重分析等手段对其进行了表征并解析了它的单晶结构.实验结果表明:配合物属三斜晶系,空间群为P,ī晶胞参数为a=0.66814(5)nm,b=1.00929(7)nm,c=1.5438(11)nm,α=81.544(10)°,β=79.066(10)°,γ=82.278(10)°,Z=2,V=1.00495(13)nm3,配合物在空间上以一维链状方式排列.     

N,N''''-二(N-对羧基苯基胺甲酰甲基)-N,N'',N''''-三乙酸二乙三胺与锌配合物的合成和晶体结构

合成了锌与配体N,N"-二(N-对羧基苯基胺甲酰甲基)-N,N',N"-三乙酸二乙三胺的配合物ZnH3L·4H2O(H5L= C28H33N5O12),通过元素分析,IR,UV-vis和热重分析对配合物进行了表征,并测定了该配合物的晶体结构.晶体属三斜晶系,P (?)空间群,晶胞参数a=0.8442(2)nm,b=1.0837(3)nm,c=1.9082(6)nm,α=104.052(5)°,β=94.624(5)°,γ= 93.093(5)°,Z=2.结构由直接法解出,最终偏离因子R1=0.0547,wR2=0.1306.锌与配体的一个酰胺氧原子、两个亚胺氮原子和两个羧基氧原子配位,形成畸变的三角双锥构型.配合物分子间通过氢键连接形成三维网状结构.     

μ3-O-{[μ-(n-Bu)2Sn(μ-FcCO2)(n-Bu)2Sn]FcCO2}二聚物的晶体结构和分子结构

标题配合物Mr=933.84,属单斜晶系,空间群P2₁/n,晶胞参数a=15.244(4)Å,b=20.895(7)Å,c=12.375(4)Å,β=97.39(3)°,Z=4,V=3909(2)ų,Dc=1.5879·cm^-3,F(000)=1872,最终偏差因子R=0.0684.该配合物分子呈中心对称,是具有Sn₂O₂中心内环的二聚体,Sn₂     

联苯甲酰双缩氨基脲硫氰酸根硝酸根混合阴离子配位钕(Ⅲ)配合物的合成与结构

合成了联苯甲酰双缩氨基脲硫氰酸根、硝酸根混合配位的钕(Ⅲ)配合物。在此配合物中只有1个链状配体,另有2个硫氰酸根、1个硝酸根和1个水分子参与配位。总配位数是9。晶体结构分析表明,该配合物晶体属三斜晶系,P空间群。晶胞参数a=10。866(2),b=13.687(3),c=15.433(3),α=98.75(4)°,β=107.64(5)°,γ=112.14(5)°。最终偏差因子R=0.075。用INDO方法计算结果表明:NCS对Nd(Ⅲ)的配位比=C基对Nd(Ⅲ)的配位强。     

金刚烷甲酸稀土(Nd(Ⅲ), La(Ⅲ))配合物[LnL3(HL)(H2O)]2·2EtOH·2H2O的合成和晶体结构

合成了金刚烷甲酸与稀土Nd(Ⅲ)和La(Ⅲ)离子配合物, 并测定了配合物的晶体结构. 配合物的组成为[LnL3(HL)(H2O)]2·2EtOH·2H2O (Ln=Nd (1), La (2), HL=金刚烷甲酸). 配合物晶体均属三斜晶系, 空间群为P1, 晶胞参数 配合物(1) a=1.0556(2) nm, b=1.4913(3) nm, c=1.4920(3) nm , α=106.26(3)°, β=93.51(3)°, γ= 97.23(3)°, V=2.2253(5) nm3, Dcal=1.409 g·cm-3, Z=1, F(000)=990, μ(Mo Kα)=1.225 mm-1, Mr=1888.54. 配合物(2) a=1.0453(2) nm, b=1.4971(3) nm, c=1.5052(3) nm, α=106.07(3)°, β=93.58(3)°, γ=97.56(3)°, V=2.2391(5) nm3, Dcal=1.397 g·cm-3, Z=1, F(000)=984, μ(Mo Kα)=1.015 mm-1, Mr=1877.88. 两个配合物属异质同晶, 呈双核结构, Ln(Ⅲ)为九配位, 形成畸变三帽三棱柱配位多面体.     

三元配合物[Cu(hmta){SSP(OC6H11)2}2]的合成、谱学性质与晶体结构

合成了含饱和四氮杂大环hmta(hmate=meso-5,7,7,12,14,14-六甲基-1,4,8,11-四氮杂环十四烷)和O,O'-二环己基二硫代磷酸的铜(Ⅱ)的三元配合物,通过元素分析、摩尔电导、红外光谱、1H核磁共振谱和电子光谱对其进行了表征,并用单晶x-ray衍射法测定了它的晶体结构.配合物属三斜晶系,空间群为P-1,晶胞参数为a=8.174(2)A,b=10.381(3)(A),c=15.419(3)(A),α=101.59(2)°,β=93.34(2)°,γ=103.76(2)°,V=1237.3(6)(A)3,Z=2,Dc=1.219mg/cm3,F(000)=477,μ(MoKα)=0.714mm-1,最终偏离因子(I＞2σ(I))R=0.0382,wR=0.0991,相应的可观测反射数为2763.测定结果表明配合物中的配体(C6H11)2PSS-为单齿配体,金属铜离子与(C6H11)2PSS-的S(2)原子和hmta的N原子形成了六配位的拉长的八面体配合物,配合物分子具有中心对称性;同时晶胞中配合物的两配体之间形成了两种N-H…S氢键.     

Cobalt(III) Complex [CoL3] Derived from an Asymmetric Bidentate Schiff Base Ligand L (L=(5‐Bromo‐2‐hydroxybenzyl‐2‐furylmethyl)‐imine): Synthesis,Characterization and Crystal Structure

Cobalt(III) complex [CoL₃], where L=(5‐bromo‐2‐hydroxybenzyl‐2‐furylmethyl)imine, has been synthesized by reacting cobalt(II) nitrate with L. The complex has been characterized by elemental analysis and FT‐IR spectroscopy. The crystal structure of [CoL₃] was determined by X‐ray crystallography from single crystal data. It crystallizes in the triclinic space group$ P {\bar 1} $ with unit cell parameters:a=9.6644(10) Å,b=11.5657(11) Å,c=16.5809(17) Å,α=102.833(4)°,β=102.999(3)°,γ=105.480(3)°,V=1659.9(3) ųandZ=2. Thermal decomposition of [CoL₃] was studied by thermogravimetry in order to evaluate its thermal stability and thermal decomposition pathways.     

Synthesis,Structure and Thermodynamic Property of a New Lithium Borate: Li4[B8O13(OH)2]·3H2O

A new hydrated lithium borate, Li₄[B₈O₁₃(OH)₂]·3H₂O, has been hydrothermally synthesized and characterized by single crystal X‐ray diffraction, FT‐IR spectroscopy, simultaneous TGA‐DTA and chemical analysis. It crystallizes in the triclinic, space group , a=8.4578(5) Å, b=8.7877(5) Å, c=10.8058(7) Å, α=87.740(3)°, β=71.819(3)°, γ=61.569(3)°, Z=2, V=665.26(7) ų, D_c=2.043 g/cm³. Its crystal structure features polyborate anionic layers with the larger odd 13‐membered boron rings constructed by [B₈O₁₃(OH)₂]^4? FBBs. Through designing the thermochemical cycle, the standard molar enthalpy of formation of this borate was determined to be ?(7953.8±6.6) kJ·mol^?1 by using a heat conduction microcalorimeter.     

A Two-coordinate Copper(I) Complex Constructed from Cyanuric acid and 4,4′-bipyridyl: Synthesis, Structure and Photoluminescence

A two-coordinate copper（Ⅰ） complex, Cu2（bipy）（H2L）2 （1） （H3L=cyanuric acid, bipy=4,4＇-bipyridyl）, which exhibits strong photoluminescence, has been synthesized under hydrothermal conditions and structurally characterized by single crystal X-ray diffraction. The compound crystallizes in the monoclinic space group P21/n, with cell parameters： Mr= 539.42, a= 13.4806（5）A↑°, b=4.5234（2） A↑°, c= 15.4952（8）A↑°,β = 105.526（3）°, V=910.39（7）A↑°^3, Z=2 and μ=3.52 mm^ -1. In the structure the two Cu（Ⅰ） ions are bridged by bipy to form a two-coordinate copper（Ⅰ） dimer. The adjacent dimer units are connected by hydrogen bonding interactions, resulting in 1D zigzag chains along the c axis. 1 emits intense yellow light when excited with UV light.     

Synthesis,Crystal Structure and Thermal Behavior of 4,5‐Diacetoxyl‐2‐(dinitromethylene)‐imidazolidine

A new energetic material, 4,5‐diacetoxyl‐2‐(dinitromethylene)‐imidazolidine (DADNI), was synthesized by the reaction of 4,5‐dihydroxyl‐2‐(dinitromethylene)‐imidazolidine (DDNI) and acetic anhydride, and characterized by single crystal X‐ray diffraction. Crystal data for DADNI are monoclinic, space group C2/c, a=15.9167(3) Å, b=8.6816(4) Å, c=8.5209(3) Å, β=103.294(9)°, V=1145.9(3) ų, Z=4, µ=0.150 mm⁻¹, F(000)=600, D_c=1.682 g·cm⁻³, R₁=0.0565 and wR₂=0.1649. Thermal decomposition behavior of DADNI was studied and an intensely exothermic process was observed. The kinetic equation of the decomposition reaction is: dα/dT=(10^16.64/β)×4α^3/4exp(−1.582×10⁵/RT). The critical temperature of thermal explosion is 163.76°C. The specific heat capacity of DADNI was studied with micro‐DSC method and theoretical calculation method. The molar heat capacity is 343.30 J·mol⁻¹·K⁻¹ at 298.15 K. The adiabatic time‐to‐explosion of DADNI was calculated to be 87.7 s.     

Weak Interactions Involving Fluorine in Suppramolecular Assemblies of Cu(Ⅱ)Complexes

Syntheses and X‐ray structural characterizations of two new Cu(II) complexes Cu(tfbz)₂(Htfbz)₂(phen) ( 1 ) (Htfbz=2,4,5‐trifluorobenzoic acid, phen=1,10‐phenanthroline) and [Cu(pfbz)₂(phen)]₂(Hpfbz)₂ ( 2 ) (Hpfbz=pentafluorobenzoic acid) are reported. The first complex crystallizes in the monoclinic space group C2/c with the crystal cell parameters a=1.9903(4) nm, b=1.3688(3) nm, c=1.3623(3) nm, β=97.90(3)°, V=3.6762(13) nm³ and Z=4. The second complex crystallizes in the triclinic space group P‐1 with the crystal cell parameters a=1.7965(4) Å, b=1.9236(2) Å, c=2.0916(2) Å, α=110.156(2) °, β=105.040(3) °, γ=98.123(3) °, V=6.3372(17) nm³ and Z=4. The crystallographic analyses revealed that F···H–C hydrogen bonds in both complexes lead to formation of infinite three‐dimensional supramolecular networks. A large number of F···F interactions in complex 2 ensure the stability of intricate crystal structure.     

Structural Characterization and Thermal Behavior of 1-Amino-1-methylamino-2,2-dinitroethylene

A novel high energetic material, 1‐amino‐1‐methylamino‐2,2‐dinitroethylene (AMFOX‐7), was synthesized through 1,1‐diamino‐2,2‐dinitroethylene (FOX‐7) reacting with methylamine in N‐methyl pyrrolidone (NMP) at 80.0°C, and its structure was determined by single crystal X‐ray diffraction. The crystal is monoclinic, space group P2₁/m with crystal parameters of a=6.361(3) Å, b=7.462(4) Å, c=6.788(3) Å, β=107.367(9)°, V=307.5(3) ų, Z=2, µ=0.160 mm^?1, F(000)=168, D_c=1.751 g·cm^?3, R₁=0.0463 and wR₂=0.1102. Thermal decomposition of AMFOX‐7 was studied, and the enthalpy, apparent activation energy and pre‐exponential constant of the exothermic decomposition reaction are 303.0 kJ·mol^?1, 230.7 kJ·mol^?1 and 10^21.03 s^?1, respectively. The critical temperature of thermal explosion is 245.3°C. AMFOX‐7 has higher thermal stability than FOX‐7.     

Synthesis and Characterization of Two Formyl 2‐Tetrazenes

The synthesis of two formyl 2‐tetrazenes, namely, (E)‐1‐formyl‐1,4,4‐trimethyl‐2‐tetrazene ( 2 ) and (E)‐1,4‐diformyl‐1,4‐dimethyl‐2‐tetrazene ( 3 ), by oxidation of (E)‐1,1,4,4‐tetramethyl‐2‐tetrazene ( 1 ) using potassium permanganate in acetone solution is presented. Compound 3 was also synthesized in an improved yield from the oxidation of 1‐formyl‐1‐methylhydrazine ( 4a ) using potassium permanganate in acetone. Both compounds 2 and 3 were characterized by analytical (elemental analysis, GC‐MS) and spectroscopic methods (¹H, ¹³C, and ¹⁵N NMR spectroscopy, and IR and Raman spectroscopy). In addition, the solid‐state structures of the compounds were confirmed by low‐temperature X‐ray analysis. (Compound 2 : triclinic; space group P‐1; a=5.997(1) Å, b=8.714(1) Å, c=13.830(2) Å; α=107.35(1)°, β=90.53(1)°, γ=103.33(1)°; V_UC=668.9(2) ų; Z=4; ρ_calc=1.292 cm^?3. Compound 3 : monoclinic; space group P2₁/c; a=5.840(2) Å, b=7.414(3) Å, c=8.061(2) Å; β=100.75(3)°; V_UC=342(2) ų; Z=2; ρ_calc=1.396 g cm^?3.) The vibrational frequencies of compounds 2 and 3 were calculated using the B3LYP method with a 6‐311+G(d,p) basis set. We also computed the natural bond orbital (NBO) charges using the rMP2/aug‐cc‐pVDZ method and the heats of formation were determined on the basis of their electronic energies. Furthermore, the thermal stabilities of these compounds, as well as their sensitivity towards classical stimuli, were also assessed by differential scanning calorimetry and standard BAM tests, respectively. Lastly, the attempted synthesis of (E)‐1,2,3,4‐tetraformyl‐2‐tetrazene ( 6 ) is also discussed.     

Hydrogen‐Bonding in Cyclic 2‐(3‐Oxo‐3‐phenylpropyl)‐Substituted 1,3‐Diketones: 17O‐NMR Spectra and X‐Ray Structure Determination

Structures of cyclic 2‐(3‐oxo‐3‐phenylpropyl)‐substituted 1,3‐diketones 4a – c were determined by ¹⁷O‐NMR spectroscopy and X‐ray crystallography. In CDCl₃ solution, compounds 4a – c form an eight‐membered‐ring with intramolecular H‐bonding between the enolic OH and the carbonyl O(11)‐atom of the phenylpropyl group, as demonstrated by increased shielding of specifically labeled 4a – c in the ¹⁷O‐NMR spectra (Δδ(¹⁷O(11))=36 ppm). In solid state, intermolecular H‐bonding was observed instead of intramolecular H‐bonding, as evidenced by the X‐ray crystal‐structure analysis of compound 4b . Crystals of compound 4b at 293 K are monoclinic with a=11.7927 (12) Å, b=13.6230 (14) Å, c=9.8900 (10) Å, β=107.192 (2)°, and the space group is P2₁/c with Z=4 (refinement to R=0.0557 on 2154 independent reflections).     

A Nine‐Coordinated ZrIV Complex and a Self‐Assembling System Obtained from a Proton Transfer Compound Containing 2,6‐Pyridinedicarboxylate and 2,6‐Pyridinediammonium; Synthesis and X‐ray Crystal Structure

Starting with a zirconium salt and LH₂ , (pydaH₂)²⁺(pydc)^2?, (pyda=2, 6‐pyridinediamine; pydcH₂=2,6‐pyridinedicarboxylic acid), as a 1:1 proton transfer self‐associated compound, two different compounds were resulted. One of them is a new complex of Zr^IV with a flat pyridine containing ligand and structure of (pydaH)₂[Zr(pydc)₃] · 5H₂O (1) and the other, (pydaH)⁺(NO₃)^? (2) is an ion pair with no zirconium ion. The zirconium(IV) complex (1) is crystallized in triclinic system with space group and Z = 2, the crystallographic parameters are: a = 10.612(5) Å, b = 10.617(5) Å, c = 16.815(8) Å, α = 103.654(9)°, β = 95.821(9)°, γ = 98.891(9)° and R‐value for 16767 collected reflections is 0.0592. The ion pair (2) has crystals of monoclinic system with P2₁ space group and Z = 2. Its crystallographic parameters are: a = 3.6227(11) Å, b = 10.034(4) Å, c = 10.296(4) Å, β = 93.422(9)° and R‐value for 4031 collected reflections is 0.0521. The two compounds were characterized with elemental analysis, ESI/MS, NMR and IR spectroscopy.     

Hetero‐metallic Lanthanide CPs Involving Sodium: Synthesis,Crystal Structure,and Luminescence Properties

[TbNa(4‐msal)₄(phen)₂]_n ( 1 ) (4‐msal = 4‐methyl salicylic acid), a new hetero‐metallic lanthanide coordination polymer (CP) involving sodium was synthesized. It crystallizes in the monoclinic space group P2₁/n, with a = 20.4809(9) Å, b = 9.8183(2) Å, c = 26.1987(11) Å, α = 90.00°, β = 112.922(5)°, γ = 90.00°, V = 4852.2(3) ų, and Z = 4. The complex was characterized by single crystal and powder X‐ray diffraction, elemental analysis (EA), and Fourier transform infrared (FT‐IR) and luminescence spectroscopy. The luminescence properties of a powder sample of 1 were studied at room temperature and the luminescence lifetime and total quantum yield (QY) were determined.