SYNTHESIS AND CRYSTAL STRUCTURE OF A TRITUNGSTEN CLUS-TER COMPOUND [W_3O_2(O_2CCH_3)_6(H_2O)_3]ZnBr_4·8H_2O

<正> C12H40O25Br4W3Zn, Mr = 1520. 71, monoclinic, space group P1, a = 10. 470(4) b=17. 669(6),c=14. 477(2) A ,α=99. 80(2),αB=101. 51(2),γ=99. 78 (4)°,V=1829A3,Z = 2,DX = 2. 66g/cm3,λ(MoKa) = 0. 71073A,μU= 146. 9cm-1,F (000) = 1408. Final R=0. 038,Rw = 0. 049 for 4088 independent observable reflections.     

STRUCTURE OF PENTAAQUO PYROMEL DIZINE (Ⅱ)-DIHYDROUS [C_6H_2(COO)_4Zn_2(H_2O)_5]·2H_2O

Crystal and molecular structure of [C6H2(COO)4Zn2(H2O)5]·2H2O has been determined by X-ray diffraction technique, Mr = 507. 0,monoclinic,space group P21/n,a = 5. 925(1), 6 = 23. 613(9) ,c= 11. 790(5) A ,β= 96. 36 (3)°, V=1639. 3 (1. 0) A3,Z=4,DC = 2. 05g/cm3,λ=0. 71069 A,μ(MoKa) = 30. 9/cm-1,F(000) = 1024e. The structure was solved by Patterson and Fourier techniques and refined by least-squares method to a final conventional R value of 0. 055(Re = 0. 059)for 1557(I>3σ(I))reflections. Both atoms Zn(1) and Zn(2) are bridged by the Z,E-type of the car-boxyl group, in addition, Zn (1) is monodentate-bonded to the three remaining carboxyl and Zn(2) is bonded to five water molecules. The crystal structure shows a 2-dimensional polymeric network along(010)face. The Zn(l) -O distances are in the range of 1. 94~ 2. 01 A (average 1. 98 A ). The Zn(2) -O distances are in the range of 2. 06~2. 21 A (average 2. 12A).     

SYNTHESIS AND CRYSTAL STRUCTURE OF TRINUCLEAR CLUSTER [M_3O_2(O_2CCH_3)_6(H_2O)_3]ZnBr_4·8H_2O(M=0. 33Mo+0. 67W)

<正> C12H40O25Br4MoW2Zn, Mr=1432. 75,Monoclinic,Space group C2/c,a= 13. 239(2),b= 16. 215(3),c= 17. 670(3) A ,β= 105. 53(2) ,V=3654 A3,Z= 4,μ= 64. 0cm-1,λ(MoKa) = 0. 71073 A , F (000) = 2688, Dc = 2. 605g/cm3. Final R = 0. 042,Rw = 0. 057 for 2688 observed independent reflections.     

CRYSTAL STRUCTURE OF [Ni((C)_6H_(11)O)_2PS_2)·(C_4H_9NH_2)_4]-(C_6H_(11)O)_2PS_2

<正> [Ni((C6H11O)2PS2)·(C4H9NH2)4](C6H11O)2PS2,Mr-=938. 05, triclinic,P1,a=13. 513(6),b=16. 040 (7), c= 12. 891(6) A , α= 95. 66 (4),β= 90. 23(4),γ= 75. 46(3)°,V = 2691 A3,Z=2,Dc= 1. 16 g·cm3.μ=6. 07cm-1,MoKa radiation, λ=0. 71069 A ,F(000) = 1020,R=0. 100 for 4595 reflections with I≥3σ(I). The title compound molecule consists of a complex cation [Ni((C6H11O)2PS2)(C4H9-NH2)4]+ and a complex anion (C6H11O)2PS2- . The Ni (Ⅱ) atom in the cation is octahedrally coordinated by four nitrogen atoms from four w-butylamine ligands and two sulfur atoms from one (C6H11O)2PS2 group.     

Synthesis,Crystal Structure,and Cytotoxic Property of Dibromobis{4-bromo-2-[(2-phenylaminoethylimino)methyl]phenolato}dizinc(Ⅱ)

The title phenolic oxygen bridged dinuclear Schiff base zinc(Ⅱ)complex [Zn2Br2-(C15H14BrN2O)2]was synthesized and characterized by elemental analysis and single-crystal X-ray diffraction.The crystal belongs to the trielinic system,space group P-1 with a=9.2279(17),b=12.096(2),c=16.286(3)(A),α=75.402(3),β=87.464(3),γ=72.746(3)°,V=1679.1(5)(A)3,Z=2,Dc=1.833 g/cm3,Mr=926.94,λ(MoKα)=0.71073(A),μ=6.221 mm-1,F(000)=904,the final R=0.0601 and wR=0.1155.A total of 7453 unique reflections were collected,of which 3425 with Ⅰ＞2σ(Ⅰ)were observed.One Zn atom is six-coordinate in an octahedral geometry,and the other one is four-coordinate in atetrahedral geometry.The Zn…Zn distance is 3.106(2) (A).In the crystal structure,molecules are linked through intermolecular hydrogen bonds typed N-H…Br and C-H…Br,forming zigzag chains running along the b axis.The complex shows potent cytotoxic property to both normal and cardnoma cells.     

CRYSTAL STRUCTURE AND SHG EFFECT OF COMPLEX [Zn(POM)_2Br_2]

[Zn(POM)_2Br_2](POM is 3-Methyl-4-Nitropyridine-1-Oxide),C_(12)H_(12)Br_2N_4O_6Zn,Mr=533.44,triclinic,P1,a=11.450(3),b=13.027(2),c=6.605(1),α=101.25(1),β=96.96(2),γ=108.06(2)°,V=901.2(4)~3,Z=2,D_c=1.97g·cm~(-3),(MoK_α)=0.71069,F(000)=520,μ=58.21cm~(-1),final R=0.040 for 2192 observed reflections,T=296K.The compound is amononuclear complex,containing a tetrahedrally coordinated zinc atom.     

CRYSTAL AND MOLECULAR STRUCTURE OF DICHLOROBIS-(PYRIDINIOPROPIONATO)ZINC(Ⅱ) ,Zn(C_5H_5NCH_2CH_2CO_2)_2Cl_2

<正> A 1:2 adduct of ZnCl2 with pyridiniopropionate (C5H5N + CH2CH2CO2-,ppBET ) has been prepared and characterized by single-crystal X-ray analysis. The complex crystallizes in the monoclinic space group P21/c(No. 14) with a = 13. 524(2), 6 = 9.322(3), 15. 474(2) A, β=106. 34(2)°, V = 1871. 9(5) A3, Z = 4, Dm = 1. 554gcm-3, Dc=1. 557gcm-3, and μ = 16. 5cm-1. The crystal structure comprises discrete [Zn(ppBET)2Cl2] molecules in which the Zn atom is tetrahe-drally coordinated by two unidentate;carboxylato groups [Zn - O = 1. 965(4) , 1. 969 (4)A] and two chloro ligands [Zn-Cl=2. 269(2),2. 266(1)A].     

DETERMINATION OF CRYSTAL STRUCTURE OF C6H5GdCl2（THF）4

<正> By X-ray (λ=0. 71069A) diffraction of single crystal,we have determined the crystal structure of C6H5GdCl2 (THF)4,C22H37Cl2O4Gd, MT=593. 2,or-thorhombic space group Ccm2;with lattice parameters a=12. 776(6),b=12. 954(6), c=15. 802(3)A ;V=2615. 4(1. 8)A3;Z=4,Dc=2. 43gcm-3,μ=29. 3cm-1,F(000) = 1120. The structure was solved by heavy-atom method and Fourier techniques and refined by least-squares to a final R=0. 051 ,Rw = 0. 049 for 839 reflections with I≥1. 5σ (I). The results revealed that the bond length of Gd-C is 2. 437(22) A ,the average bond lengths of Gd-Cl 2. 678(6) A ,Gd-O 2. 499(12) A, C-C from phenyl group 1. 376(40)A. This crystal structure is the first organolanthanide complex with only one Ln-C bond in the molecule.     

Synthesis, Crystal Structure and Luminescent Properties of [Zn（bipy）_2（H_2O）_4]·L·3H_2O

A novel coordination complex [Zn(bipy)2(H2O)4]·L·3H2O (1, bipy = 4,4'-bipyridine, LHNa = aniline-2,5-disulfonic acid monosodium salt) has been synthesized from LHNa by using hydrothermal method and structurally characterized. The result indicates that complex 1 belongs to the monoclinic system, space group P21/c with a = 20.392(3), b = 7.4052(12), c = 23.843(3) , β = 116.253(10)°, V = 3.2291(8) 3, Z = 4, Dc = 1.553 g·cm-3, μ = 0.962 mm-1, F(000) = 1568, and the final R = 0.0497 and wR = 0.1290. The complex 1 has a 0-D discrete structure, and generates an infinite 3-D network with the aid of O–H…O hydrogen bonds and π-π interactions.     

SYNTHESIS AND STRUCTURE OF THE PEROXOVANADIUM (V) COMPLEX CONTAINING NITRILOTRIACETATE Na_2[VO (O_2) N-(CH_2COO)_3]·5H_2O

<正> Na2[VO(O2)N(CH2COO)3] · 5H2O, Mr= 423. 11, monoclinic, space group P21/c, a = 6. 283(3), b = 20. 378(6), c=12. 056(4)(?) , β=102. 96 (3)°, V = 1507. 9(?)3, Z = 4, Dc= 1. 864 g/cm3. λ(MoKα) = 0. 71069A , F(000) = 864. Final R = 0. 037 and Rw = 0. 046 for 1658 observed reflections with I>10σ (I). The structure of the anion of the title complex shows that the vanadium atom is coordinated by one vanadyl oxygen atom, two oxygen atoms of the peroxp-group, three oxygen atoms and one nitrogen atom from the NTA ligand to form a distorted pentagonal bipyramid.     

Crystal Structure of Organometallic Complex [Zn（pom）2I2]

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Synthesis,Crystal Structure and Calculated β Value of a Tetrahedral Zinc (II) Complex——Zn(2-NH_2py)_2Br_2

1 INTRODUCTION Coordination chemistry has been playing an important role in nonlinear optical (NLO) materi- als [1~3] in recent years. It has been found that tetrahedral or square pyramidal molecular configurations are useful for designing transparent second-harmonic generation (SHG) materials from coordination compounds[4]. It has also been reported that the pyridyl-based metal complexes can exhibit SHG effects[5]. Recently, we have successfully synthesized a new coordination compoun…     

Crystal Structure of [Cd（pom）2Cl2]

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A Mixed-valent Hexanuclear CuⅡ-CuⅠ Complex with Unusual Tridentate pbi Ligand (pbi= 2-(2-Pyridyl)-benzimidazole)

A mixed-valent hexanuclear complex [CuⅡCuⅠ2(pbi)2Br2]2 (pbi = (2-(2-pyridyl)-benzimidazole) exhibiting a dimeric unit bridged by two Br atoms was synthesized by hydrothermal reaction.Interestingly, there exist intramolecular and intermolecular π-πstacking interactions as well as metalaromatic ring interactions in the title complex. The crystal belongs to the monoclinic system, space group P-1, with a = 7.1061(9), b = 12.1008(13), c = 14.0711(17) (A), α = 91.742(8), β = 100.155(9), γ =90.486(7)°, V = 1190.3(2)(A)3, Z = 2, C48H32Br4Cu6N12, Mr = 1477.74, Dc= 2.061 g/cm3, F(000) = 718,μ(MoKα) = 6.039 mm-1, the final R = 0.0481 and wR = 0.0974 for 3426 observed reflections (I＞2σ(I)).     

Crystal Structure of (γ-CH_3C_5H_4N)_2Zn(S_2C_2(CN)_2)and the Second Harmonic Effect

1mrnODUCTIONMetallorganiccompoundisconsideredtobehighlyprospectiveasnonlinearoptical(NLO)materials.NLOpropertiesofmanymetallorganiccompoundshavebeenstudiedsince1986[h,clearlyshowingthepracticalmeaningofthiskindofresearch,especiallyforapplicationsinthevisiblefield.ForametallorganicNLOcrystaltobetransparentinthevisibleregion,generally,atleastthefollowingprerequisites"'mustbesatisfiedwithmolecularandcrystalstructurerespects.Firstly,theelectronconfigurationofcentricionsoftransitionmetalmustb…     

CRYSTAL AND MOLECULAR STRUCTURE OF A NOVEL Au Ag SUPRACLUSTER COMPOUND [Au_13Ag_12(μ-Br)_4(μ_3-Br)_2(Ph_3P)_10-

<正> [Au13Ag12(μ-Br)1(μ3-Br)2 (Ph3P)10Br2] Br, monoclinic. space group C2/m, a = 36. 496(17). b=16. 878(7), c-=19. 772(9) A , β=99. 87(5)°, V=11998. 9 A3.Z=2. The final R(Rw) is 0. 097(0. 109) for 3779 reflections with I>3σ(I). The structure can he considered as two icosahedral cluster units (AurAg6) sharing one vertex and linked hy six bromine atoms. The Au - Au, Au - Ag. and Ag-Ag distances fall in the ranges of 2. 69-2. 96. 2. 84-3. 02. and 2. 92-3. 26 A, respectively.     

Synthesis and characterization of Mo(6) chalcobromides and cyano-substituted compounds built from a novel [(Mo(6)Br(i)(6)Y(i)(2))L(a)(6)](n)()(-) discrete cluster unit (Y(i) = S or Se and L(a) = Br or CN)

The syntheses, crystal structures determined by single-crystal X-ray diffraction, and characterizations of new Mo(6) cluster chalcobromides and cyano-substituted compounds with 24 valence electrons per Mo(6) cluster (VEC = 24), are presented in this work. The structures of Cs(4)Mo(6)Br(12)S(2) and Cs(4)Mo(6)Br(12)Se(2) prepared by solid state routes are based on the novel [(Mo(6)Br(i)(6)Y(i)(2))Br(a)(6)](4)(-) (Y = S, Se) discrete units in which two chalcogen and six bromine ligands randomly occupy the inner positions, while the six apical ones are fully occupied by bromine atoms. The interaction of these two compounds with aqueous KCN solution results in apical ligand exchange giving the two first Mo(6) cyano-chalcohalides: Cs(0.4)K(0.6)(Et(4)N)(11)[(Mo(6)Br(6)S(2))(CN)(6)](3).16H(2)O and Cs(0.4)K(0.6)(Et(4)N)(11)[(Mo(6)Br(6)Se(2))(CN)(6)](3).16H(2)O. Their crystal structures, built from the original [(Mo(6)Br(i)(6)Y(i)(2))(CN)(a)(6)](4)(-) discrete units, will be compared to those of the two solid state precursors and other previously reported Mo(6) cluster compounds. Their redox properties and (77)Se NMR characterizations will be presented. Crystal data: Cs(4)Mo(6)Br(12)S(2), orthorhombic, Pbca (No. 61), a = 11.511(5) A, b = 18.772(5) A, c = 28.381 A (5), Z = 8; Cs(4)Mo(6)Br(12)Se(2), Pbca (No. 61), a = 11.6237(1) A, b = 18.9447(1) A, c = 28.4874(1) A, Z = 8; Cs(0.4)K(0.6)(Et(4)N)(11)[(Mo(6)Br(6)S(2))(CN)(6)](3).16H(2)O, Pm-3m (No. 221), a = 17.1969(4) A, Z = 1; Cs(0.4)K(0.6)(Et(4)N)(11)[(Mo(6)Br(6)Se(2))(CN)(6)](3).16H(2)O, Pm-3m (No. 221), a = 17.235(5) A, Z = 1.     

Syntheses and reactions of hexavalent organotellurium compounds bearing five or six tellurium-carbon bonds

A variety of hexaorganotellurium compounds, Ar(6-n)(CH3)nTe [Ar=4-CF3C6H4, n=0 (1a), n=1 (3a), n=2 (trans-4a and cis-4a), n=3 (mer-5a), n=4 (trans-6a); Ph, n=0 (1b), n=1 (3b), n=2 (trans-4b); 4-CH3C6H4, n=0 (1c), n=1 (3c), n=2 (trans-4c), n=4 (trans-6c); 4-BrC6H4, n=0 (1d)] and Ar5(R)Te [Ar=4-CF3C6H4, R=4-CH3OC6H4 (8); Ar=4-CF3C6H4, R=vinyl (9), Ar=Ph, R=vinyl (10), Ar=4-CF3C6H4, R=PhSCH2 (11), Ar=Ph, R=PhSCH2 (12), Ar=4-CF3C6H4, R=nBu (13)] and pentaorganotellurium halides, Ar5TeX [Ar=4-CF3C6H4, X=Cl (2a-Cl), X=Br (2a-Br); Ar=Ph, X=Cl (2b-Cl), X=Br (2b-Br); Ar=4-CH3C6H4, X=Cl (2c-Cl), X=Br (2c-Br); Ar=4-BrC6H4, X=Br (2d-Br)] and (4-CF3C6H4)4(CH3)TeX [X=Cl (trans-7a-Cl) and X=Br (trans-7a-Br)] were synthesized by the following methods: 1) one-pot synthesis of 1 a, 2) the reaction of SO2Cl2 or Br2 with Ar5Te(-)Li+ generated from TeCl4 or TeBr4 with five equivalents of ArLi, 3) reductive cleavage of Ar(6-m)(CH3)(m)Te (m=0 or 2) with KC8 followed by treatment with CH3I, 4) valence expansion reaction from low-valent tellurium compounds by treatment with KC8 followed by reaction with CH3I, 5) nucleophilic substitution of Ar(6-y-z)(CH3)zTeX(y-z) (X=Cl, Br, OTf; z=0, 1; y=1, 2) with organolithium reagents. The scope and limitations and some details for each method are discussed and electrophilic halogenation of the hexaorganotellurium compounds is also described.