Two new 1D cadmium(II) azido complexes: catina-Poly[di-μ1,1-azido(2,2′-bipyridyl)cadmium(II)] and a new polymorph of catina-Poly[di-μ1,1-azido (2-acetylpyridine)cadmium(II)]

Two new cadmium(II) azido complexes, [Cd(2,2′-bipy)(N₃)₂]_n (1) and [Cd(2-acpy)(N₃)₂]_n (2) (2,2′-bipy?=?2,2′-bipyridyl and 2-acpy?=?2-acetylpyridine), have been synthesized and structurally characterized by single-crystal X-ray diffraction methods. The coordination environment of the central cadmium atom is distorted octahedral (MN₆) in 1 and (MN₅O) in 2, with one-dimensional chains formed through Cd₂N₂ units and alternatively chelating N,N′-bipyridyl or N,O-2-acetylpyridine groups. The central Cd(II) ion is coordinated to two nitrogen atoms of a chelating bipyridyl group or one nitrogen atom and one acetyl oxygen of 2-acetylpyridine and four nitrogen atoms of four different end-on bridging (μ_1,1-N₃) groups. Chains in the c direction in 1 are stabilized in b direction by π–π interactions involving the aromatic rings of bipyridyl ligands. IR and NMR spectra of the two complexes are reported.     

Bis-(tetraethylammonium)[tetraazidocuprate(II)] and catena-di-μ-1,1-azido-[di-μ-1,1-azido-bis-(2,4-dimethylpyridine)dicopper(II)]

Two new copper(II) azido complexes, namely bis-(tetraethylammonium)[tetraazidocuprate(II)] (1) and catena-di--1,1-azido-[di--1,1-azido-bis-(2,4-dimethylpyridine)dicopper(II)] (2), have been prepared and characterized by spectroscopic and crystallographic methods. Complex (1) consists of isolated NEt⁺ ₄ cations and [Cu(N₃)₄]^2– anions. The site symmetry around the copper atom in the anion is 4/m. Complex (2) features a 1 D chain structure, five coordinated square pyramidal copper(II) atoms with both azides functioning as -1,1-bridges. The i.r. spectra reveal that both complexes contain asymmetric azido ligands. The solid and solution electronic spectra of (1) and (2) show very strong absorption bands in the visible region associated with N^– ₃ Cu^II charge-transfer transitions. The e.p.r. spectra of powder samples and solutions at room temperature were recorded and discussed.     

Crystal structure of diaquatetrakis (μ-2,6-dichlorobenzoato-o,o′)dicopper(II)

Summary A new copper(II) complex of the formula [Cu(C₇H₃O₂Cl₂)₂·H₂O]₂ crystallizes in the triclinic system (space group P ). The cell parameters area=7.267(3),b=10.687(3),c= 10.934(3) Å, =99.88(3), =96.25(3), =94.78(3)°,V=827.1(5)ų,Z=1,D _c=1.853(1), andD _m=1.85 Mg/m³. The two copper atoms in the molecule are held together by the four carboxylate groups of the organic ligands, and each copper atom is further bonded to a water molecule, resulting in a square pyramidal geometry. The Cu-O(carboxylate) distances are in the range of 1.955(2)-1.975(2)Å, and Cu-O(water) and Cu-Cu distances are 2.166(2) and 2.605(1)Å, respectively.

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Kristallstruktur von Diaquatetrakis(-2,6-dichlorobenzoato-o,o)dikupfer(II)

Zusammenfassung Ein neuer Kupfer(II)-Komplex mit der Formel [Cu(C₇H₃O₂Cl₂)₂·H₂O]₂ kristallisiert im triklinen System (Raumgruppe P ) mit den Zellparameterna=7.267(3),b=10.678(3),c=10.934(3)Å, =99.88(3), =96.25(3), =94.78(3)°,V=827.1(5)ų,Z=1,D _c=1.853(1) undD _m=1.85 Mg/m³. Die beiden Kupferatome im Molekül werden von den vier Carboxylatgruppen der organischen Liganden zusammengehalten. Jedes Kupferatom ist zusätzlich an ein Wassermolekül gebunden, woraus eine quadratisch pyramidale Geometrie resultiert. Die Cu-O(Carboxylat)-Abstände liegen in einem Bereich von 1.955(2)–1.975(2)Å; die Cu-O(Wasser)- und Cu-Cu-Abstände betragen jeweils 2.166(2) und 2.605(1)Å.

     

Metal-phosphine chalcogenide interactions. Crystal and molecular structures of [di-μ-iodo-bis{(methyl cyanide-N)(triphenylthiophosphorane-S)copper(I)}] and [di-μ-chloro-bis{μ-1,2-ethylenebis(diphenylphosphine selenide-Se,Se)} dicopper(I)]

Complexes of Cu^I with tertiary phosphine chalcogenides are described. CuI reacts with Ph₃PS in MeCN/CH₂Cl₂ to form {CuI(Ph₃PS)(MeCN)} and CuCl reacts with 1,2-ethylene-bis(tertiary phosphine selenide) {dpeSe₂} in MeCN to yield {CuCl(dpeSe₂)}. Both compounds exist as halogen-bridged centrosymmetric dimers: [Cu₂(-I)₂-(Ph₃PS)₂(MeCN)₂] (1) and [Cu₂(-Cl)₂(dpeSe₂)₂] (2) respectively. Compound (1) has almost symmetric Cu—I bonds, d(Cu—I) = 2.6503(8) Å and d(Cu—I) = 2.7196(9) Å, and each Cu is further bonded to a S atom [d(Cu—S) = 2.3444(13) Å] from Ph₃PS and to a N atom [d(Cu—N) = 2.030(5) Å] from MeCN. Compound (2) has unequal Cu—Cl bonds, 2.6390(19) and 2.2806(18) Å and nearly equal Cu—Se bonds [2.4042(11) and 2.4060(11) Å]. The geometry about each Cu center in both cases is distorted tetrahedral. The Cu—Cu bond distance in (2) is 3.249(2) Å as compared with 3.4141(16) Å in (1). MeCN is bonded strongly to Cu^I as the excess of Ph₃PS failed to remove it from the coordination sphere. Compound (2) represents the first structurally characterised example of copper(I) with a bis(tertiary phosphine selenide) (dpeSe₂) acting as a bridging ligand.     

Crystal structure of octabutyl-μ-dichloro-μ3-dioxodichlorotetratin(IV)

An X-ray diffraction study has shown that Sn atoms in octabutyl-μ-dichloro-μ₃-dioxodichlorotetratin(IV) have distorted trigonal bipyramidal geometry with cis-equatorial butyl groups. Sn(1)C(but) and Sn(2)C(but) bonds are 2.077(21), 2.111(26) and 2.097(23), 2.114(22) Å, respectively. The distances of the triply-bridging O atom from Sn atoms are 2.151(9), 2.018(9) and 2.069(9) Å, and those of the bridging Cl atom are 2.666(5) and 2.831(6) Å. The distance Cl(term)Sn(2) is 2.426(5) Å. Refinement of the structure, based on 1828 observed reflections, converged to an R factor of 0.049 and a weighted R of 0.053. Crystal data for the compound are: a 13.672(6), b 19.529(9), c 8.999(2) Å, β 102.66(3) °, space group P2₁/c, Z = 2, M_r = 1105.49 for [Sn₄(C₄H₉)₈Cl₄O₂], V 2344(2) ų, D_x 1.464 gcm⁻³, F(000) = 1096, λ(Mo-K_α) 0.71069 Å,μ 22.1 cm⁻¹ and T 293 K.     

Crystal structure of [Pd3(μ-OH)(μ-CH3COO)5]

The crystals of the [Pd₃(μ-OH)(μ-CH₃COO)₅] complex are obtained and characterized using powder and single crystal X-ray diffraction and IR spectroscopy. The crystal structure (a = 15.6942(6) Å, b = 11.7190(3) Å, c = 9.7871(3) Å, V = 1800.05(10) ų, space group Pna2₁, Z = 4) is formed from neutral trinuclear cyclic molecules of [Pd₃(μ-OH)(μ-CH₃COO)₅], in which the OH^? group, together with five CH₃COO^? anions, is a bridge ligand.     

Crystal structure of (glycine) sodium nitrate Gly·NaNO3

The crystal structure of Gly·NaNO₃ was determined by single crystal diffraction methods (monoclinic crystal system, B11n, a = 14.339(3) Å, b = 9.136(3) Å, c = 5.263(3) Å, γ = 119.14(5)°). The structure is built from alternating layers of glycine organic molecules and inorganic layers consisting of Na⁺ ions and planar NO ₃ ^? ions stretching along the b axis. The surroundings of the Na atom include the oxygen atoms of the NO ₃ ^? groups and the oxygen atoms of glycine molecules. The structure has a system of hydrogen bonds.     

The crystal and molecular structures of di-μ-hydroxy-bis(di-2-pyridylamine)dinitratodicopper(II) and aqua-μ-formato-triformato-bis(di-2-pyridylamine)dicopper(II) monohydrate

The preparation, magnetic and spectroscopic properties, crystal and molecular structures of binuclear complexes of formulae [Cu₂(dpyam)₂(OH)₂(ONO₂)₂] (I), [Cu₂(dpyam)₂(O₂CH)₄(OH₂)].H₂O (II) are described. (I) consists of pairs of copper atoms linked by two hydroxo bridges. The co-ordination geometry at each copper atom is distorted square-pyramidal, the basal plane consisting of two hydroxo oxygen atoms and two nitrogen atoms from a dpyam ligand, while the axial co-ordination sites are occupied by nitrate oxygen atoms. The copper(II) ions in (II) are also in a distorted square-pyramidal environment. They are bridged by a formate group in an anti–syn configuration from a basal position to an axial position, while another axial position is occupied by the water oxygen atom. From magnetic susceptibility measurements at room temperature, both complexes are found to exhibit antiferromagnetic interactions and some magneto-structural trends are discussed.     

Synthesis and crystal structure of octaaqua(di-μ-bromo)dimanganese(II) dibromide 18-crown-6

A new crystalline complex octaaqua(di-μ-bromo)dimanganese(II) dibromide 18-crown-6, [Mn₂Br₂(H₂O)₈]Br₂ · 18C6, is synthesized and studied by X-ray diffraction analysis. The crystals of compound I are triclinic, space group $P\bar 1$ , a = 9.093 Å, b = 9.683, Å, c = 10.032 Å, α = 111.35°, β = 116.23°, γ = 92.64°, Z = 1. The structure is solved by a direct method and refined by the full-matrix least-squares method in the anisotropic approximation to R = 0.028 for 3276 independent reflections (CAD4 automated diffractometer, λMoK _α radiation). The [Mn₂Br₂(H₂O)₈]²⁺ complex cation lying at the inversion center is binuclear with two bridging Br atoms and eight water molecules. The coordination polyhedron of one Mn²⁺ cation is a distorted cis-octahedron with two Br atoms and four O atoms of the water molecules at its corners. The centrosymmetric 18C6 molecule has an usual conformation. A crystal of compound I contains a developed three-dimensional network of intermolecular (interionic) hydrogen bonds.     

X-ray crystal structure of di-μ-carbonyldicarbonyl-bis(η5-pentamethylcyclopentadienyl)diruthenium

An X-ray diffraction study of [(⁵-C₅Me₅)Ru(CO)(-CO)]₂ was performed, revealing its dimeric structure and centrosymmetrictrans conformation. The Ru-Ru bond length (2.758(1) Å) and the separation between the Ru atom and the plane of the ⁵-C₅Me₅ ligand (1.923 Å) are greater than those in the Cp analog and in the isostructural Cp and C₅Me₅ complexes of iron; this effect is due to the s inductive effect of the Me groups.Translated fromIzvestiya Akademii Nauk. Seriya Khimicheskaya, No. 3, pp. 543–544, March, 1994.     

Novel di-μ-chloro-bis[chloro(4,7-dimethyl-1,10-phenanthroline)cadmium(II)] dimer complex: synthesis, spectral, thermal, and crystal structure studies

A novel di-μ-chloro-bis[chloro(4,7-dimethyl-1,10-phenanthroline)cadmium(II)] dimer complex has been prepared by reacting CdCl₂·2.5H₂O with 4,7-dimethyl-1,10-phenanthroline (dmphen) ligand. The complex was characterized on the basis of elemental analysis, FAB-MS, IR, UV–visible, ¹H, and ¹³C NMR spectroscopy, TG/DTA, and X-ray single-crystal diffraction studies. The Cd(II) ions in [CdCl₂(C₁₄H₁₂N₂)]₂ are coordinated to three Cl atoms with the centrosymmetric dimer bridged through the Cl atoms and two N atoms in a slightly distorted square-pyramidal disposition. Several hydrogen bonds formed between the terminal Cl atoms and H-Me/H-Ph groups may stabilize the structure in the dimer form.     

Crystal structure of the clathrate compound [dibromotetra(pyridine)copper(II)]·pyridine. Characterization by EXAFS of the pyridine desorption product

Powder samples of the new compound [Cu(C₅H₅N)₄·Br₂](C₅H₅N) and of its desorption product have been studied by EXAFS. The crystal structure of [Cu(C₅H₅N)₄Br₂]·(C₅H₅N) has been determined from three-dimensional X-ray diffraction data and refined to theR value 0.038 for 379 observed reflections. (orthorhombic,Ccca,a=12.033(8),b=14.764(3),c=16.768 Å,V=1897(3) ų,Z=4). The copper atom lies on a 222 symmetry site and is hexacoordinated with four nitrogen and two bromine atoms, forming an elongated octahedron with the bromine atoms in apical positions (Cu–Br distance: 3.201(2) , Cu–N1/N2 distances: 2.02(1)/2,07(1) ). The host molecules (Cu(C₅H₅N)₄Br₂) form layers parallel to the (001) plane. Cavities in the space between these layers, bound by pyridine ligands protruding into this space, are occupied by the guest molecules (C₅H₅N). The guest desorption at room temperature is accompanied by a chemical and structural destruction of the host, leading to the known compound Cu(C₅H₅N)₂Br₂.Supplementary Data relevant to this article (lists of observed and calculated structure factors, calculated positional parameters of H atoms, root-mean-square amplitudes of thermal vibration and anisotropic thermal parameters) have been deposited with the British Library as Supplementary Publication SUP 82163 (5 pages)     

Crystal Structure Analysis of Tetras[L-tris(ethylenediamine) cobalt(Ⅲ)] tris[hexacyanoruthenate(Ⅱ)]

1 INTRODUCTION The tris(ethylenediamine) cobalt (Ⅲ) complex in which there are L and D configurations is one of the very interest cations due to the chirality among research complexes and the characterization of reaction on the ion-pair charge-transfer transitions. It has been mentioned in a lot of examples on the chirality and the structure, such as [L-Co(en)3]- [?Co(edta)]2Cl?0H2O[1], [(+)DCo(en)3]Cl3稨2O[2], [(+)-Co(en)3?-)-Cr(en)3]Cl?.1H2O[3], [()-Co(en)3] (SCN)3[4], [(+)D…     

Crystal structure and spectroscopic study of di-μ(1,1)-azido-di-μ(0,0-nitrato)tetrakis(3,5-lutidine)dicopper(II), [Cu(N3) (NO3) (3,5-lutidine)2]2

A mixed ligand 12 complex of copper(II) azide with 3,5-lutidine, namely di-(1,1)-azido-di(0,0)-nitrato)tetrakis(3,5-lutidine)dicopper(II) has been prepared and characterized by X-ray crystallographic and spectroscopic methods. The dimeric molecule, which possesses a crystallographic inversion center, contains two(1,1) bridging azido ligands. Each copper(II) atom in the cyclic Cu₂N₂ unit is further coordinated by two oxygen atoms from two(0,0-nitrato) bridges at Cu-O distances of 2.465(3) and 2.568(3) Å and two nitrogen atoms from the lutidine molecules [Cu-N=2.003(3) and 2.012(3) Å] to give a distorted tetragonal bipyramid. Both azido ligands are linear [N-N-N angle=179.0(4) and asymmetric N-N=1.207(4) and N-N=1.135(5) Å]. The azido bridges produce a rather short Cu Cu distance of 3.013(2) Å. Infrared and electronic data are presented and discussed.     

Polyfluorothiolate derivatives of rhodium(I). Crystal and molecular structure of [Rh(μ-SC6HF4)(C8H12)]2

Summary The thiolato-bridged dinuclear compounds [Rh(-SR)-(COD)]₂, where R=p-C₆HF₄ (1),p-C₆H₄F (2) and CF₃ (3), are obtained from the chloro-bridged analogue by ligand exchange.Compound (1) crystallizes in the space group P₁ with a=9.740(3)Å, b=11.642(4)Å, c=13.997(6)Å, =103.87(3)°, =106.98(3)° and =105.10(2)°; z=2. In this dinuclear molecule both Rh atoms have a square planar coordination sharing one edge, namely the two sulphur bridging atoms. The Rh—Rh separation of 2.96 Å is consistent with at most a very weak metal-metal interaction. Upon addition of CO the dimeric [Rh(-SR)(CO)₂]₂ (4), (5) and (6) are obtained, but addition of PPh₃ affords the monomeric species [Rh(SR)(PPh₃)-(COD)] (7), (8) and (9). Reactions of the dimeric tetracarbonyl derivatives with PPh₃ vary with the nature of R; [Rh(-SR)(PPh₃)(CO)]₂ is obtained when R=p-C₆H₄F (10) and CF₃ (11) but monomeric [Rh(SR)-(PPh₃)(CO)₂] (12) is produced when R=p-C₆HF₄. The latter mononuclear compounds, with R=p-C₆H₄F (13) and CF₃ (14), are also formed by reaction of [Rh(SR)-(PPh₃)(COD)] with CO.     

Synthesis and Structure of Catena-[Bis(2-Methylimidazole)(μ-Phthalato)cobaltate(II)]

A new coordination compound [Co(Pht)(2-MeIm)₂] (I), where Pht^2–is the deprotonated radical of o-phthalic acid (H₂Pht) and 2-MeIm is 2-methylimidazole, was synthesized. Its structure was established using X-ray diffraction analysis. The crystal is orthorhombic: space group Pca2₁, a= 15.350(3), b= 7.957(2), c= 13.997(3) Å, (calcd.) = 1.505 g/cm³, and Z= 4. The tetrahedral coordination of the Co(II) atom includes two N atoms of two 2-methylimidazole molecules and two oxygen atoms of two carboxyl groups from different acid radicals. The Co–N distances are equal to 2.022(2) and 2.031(2) Å, while the Co–O distances are 1.972(2) and 2.000(2) Å. The carboxyl groups of the Pht^2–radical and the aromatic nucleus form angles of 47.2° and 35.9°, whereas the angle formed by the carboxyl groups themselves is 50.3°. Compound Iis a polymer, which is confirmed by the 1,6-bridging function of the o-phthalic acid radical. The Co···Co distance in a chain is equal to 7.367 Å. Separate chains are united in the crystal into a framework via N–H···O hydrogen bonds.     

Synthesis and Structure of bis(μ-2-aminopyridine N-oxide)-bis[dichlorocopper(II)]

1 INTRODUCTIONMany complexes of 2-aminopyridine N-oxide (apo) have been characterized by infrared spectra, X-ray powder diffraction spectra, and by magnetic measurements and electronic spectra at liquid nitrogen temperature, but very few of them are their crystal X-ray studies[1~3]. Recently, a number of bridged binuclear copper (II) complexes have been reported, some of which have important potential applications in bioinorganic chemistry and materials[4~6]. Particularly, the complexes …     

Synthesis and crystal structure of dioxobis(μ-pentafluorophenylimido)di-(η-methylcyclopentadienyl)dimolybdenum

The reaction between C₆F₅NO₂ and [(η-MeC₅H₄)Mo(CO)₃]₂ yields the dioxobisimido complex, [(η-MeC₅H₄)MoO (η-NC₆F₅)]₂ (1). The X-ray crystal structure of compound 1 shows a cis arrangement of the methylcyclopentadienyl ligands and a puckered metallacyclic core.     

Crystal and molecular structure of cyano(ethylenediamine) [Ethylenediamine-N,N′-Diacetato(1-)]Cobalt(III) Trichloromercurate(II) [Co(HEdda)En(CN)]HgCl3

An X-ray diffraction analysis of [Co(HEdda)En(CN)]HgCl₃ crystals (a = 6.664(4), b = 16.613(13), c = 16.684(7) å, space group P2₁2₁2₁, Z = 4) showed that the crystals contain distorted tetrahedra HgCl₄ linked by one of their vertices into infinite chains [HgCl₃] _n ^n- . In isolated complex cations, three donor atoms of the HO₂CCH₂NHCH₂CH₂NHCH₂CO ₂ ^- (HEdda) ion occupy a face of the coordination octahedron around the cobalt atom; the opposite face is occupied by the cyanide ion and the nitrogen atoms of the ethylenediamine (En) molecule; the latter are in trans positions relative to the terminal donor atoms of the HEdda ligand.