Structure cristalline de K2SO4(SbF3)2

The crystal structure of K₂SO₄(SbF₃)₂ was determined by X-ray diffraction on a single crystal (R = 0.035 for 2264 reflections). There are two families of antimony atoms showing two different environments: AX₅E octahedron (6 coordination) and AX₆E 3.3.1 monocapped octahedron (7 coordination). The SO^2?₄ unit weakly bonded to four antimony atoms is not very distorted. This arrangement permits the minimization of π-E interactions. Infrared and Raman spectra are discussed in terms of diffraction results.     

Synthesis and structure determination of a stable organometallic uranium(v) imine complex and its isolobal anionic U(IV)-ate complex

The reaction of one equivalent of Cp*₂UCl₂ with 2-(trimethylsilylimino)-1,3-di-tert-butylimidazoline in boiling toluene afforded a one electron oxidation of the uranium metal and the opening of the N-heterocyclic ring, resulting in the formation of an organometallic uranium(V) imine complex. This complex crystallized with one molecule of toluene in the unit cell, and its solid-state structure was determined by X-ray diffraction analysis. When the same reaction was performed in perdeuterated toluene, a myriad of organometallic complexes were obtained, however, when equimolar amounts of water were used in toluene, the same complex was obtained, and its solid state characterization shows two independent molecules in the unit cell with an additional water molecule. For comparison of the geometric parameters, the corresponding isolobal anionic uranium(IV) complex [Cp*₂UCl₃]^? was synthesized by the reaction of Cp*₂UCl₂ with 1,3-di-tert-butylimidazolium chloride, and the resulting U(IV)-ate complex was characterized by X-ray diffraction analysis.     

Bildungsenthalpie von Uranpentachlorid

The standard enthalpy of formation of UCl₅ has been determined as ΔH _f ^,298/0 UCl₅ (s)=?247.7±0.5 kcal/mol (?1036.4±2.1 kJ/mol) by reacting uranium with chlorine gas in the presence of excess liquid chlorine at 298° K.     

A Revised Structure Model for the UCl6 Structure Type,Novel Modifications of UCl6 and UBr5, and a Comment on the Modifications of Protactinium Pentabromides

The redetermination of the crystal structure of trigonal UCl₆, which is the eponym for the UCl₆ structure type, showed that certain atomic coordinates had been incorrectly reported. This led to noticeably different U−Cl distances within the octahedral UCl₆ molecule (2.41 and 2.51 Å). Within the revised structure model presented here, which is based on single crystal data as well as quantum chemical calculations, all U−Cl distances are essentially equal within standard uncertainty (2.431(5), 2.437(5), and 2.439(6) Å). This room temperature modification, called rt-UCl₆, crystallizes in the trigonal space group P m1, No. 164, hP21, with a=10.907(2), c=5.9883(12) Å, V=616.9(2) ų, Z=3 at T=253 K. A new low-temperature (lt) modification of UCl₆ is also presented that was obtained by cooling a single crystal of rt-UCl_6. The phase change occurs between 150 and 175 K. lt-UCl₆ crystallizes isotypic to a low-temperature modification of SF₆ in the monoclinic crystal system, space group C2/m, No. 12, mS42, with a=17.847(4), b=10.8347(18), c=6.2670(17) Å, β=96.68(2)°, V=1203.6(5) ų, Z=6 at 100 K. The Cl anions form a close-packed structure corresponding to the α-Sm type with uranium atoms in the octahedral voids. During the synthesis of UBr₅ a new modification was obtained that crystallizes in the triclinic crystal system, space group P , No. 2, aP36, with a=10.4021(6), b=11.1620(6), c=12.2942(7) Å, α=68.3340(10)°, β=69.6410(10)° and γ=89.5290(10)°, V=1231.84(12) ų, Z=3 at T=100 K. In this structure the UBr₅ units are dimerized to U₂Br₁₀ molecules. The Br anions also form a close-packed structure of the α-Sm type with adjacent uranium atoms in the octahedral voids. Comparisons of the crystal structures of the compounds MX₅ (M=Pa, U; X=Cl, Br) show that the crystal structure of monoclinic α-PaBr₅ is probably not correct.     

Koordinative komplexe des antibasen—basen-systems urantetrachlorid und tricyclopentadienyluran(IV)-chlorid

Novel coordination compounds of uranium tetrachloride with tricyclopentadienyluranium(IV) chloride of the compositions [(C₅H₅)₃U]₂UCl₆· 2DME, [(C₅H₅)₃U]₂UCl₆ and [(C₅H₅)₃U]UCl₅ have been synthesized by the following reactions in dimethoxyethane: (a) UCl₄ + 2TlC₅H₅, (b) UCl₄ + U(C₅H₅)₄ and (c) UCl₄ + 2(C₅H₅)₃UCl.The solvent-free compounds have been prepared in benzene in a similar manner. The physical and chemical properties of these compounds are reported.     

Synthesis and X-Ray Crystal Structure of the TiMgCl6(CH3COOC2H5)4 Adduct

The molecular and crystal structure of TiMgCl₆(CH₃COOC₂H₅)₄, obtained by reacting TiCl₄ with a solution of MgCl₂ in dry CH₃COOC₂H₅, have been determined by x-ray diffraction. The structure was solved by direct and Fourier methods and refined by least-squares techniques to R = 0.052 for 2722 independent observed reflections. Unit-cell dimensions are a = 17.122(7), b = 9.833(3), c = 9.646(3) Å, α = 111.10(7)°, β = 107.22(6)°, γ = 103.11(6)° with Z = 2 for P1 . The titanium(IV) atom is octahedrally coordinated by six chlorine atoms (Ti? Cl_t = 2.293(2) Å, Ti? Cl_b = 2.480(2) Å) and magnesium by two chlorine atoms (Mg? Cl_b = 2.528(2) Å) and the carbonyl oxygen atoms of the four CH₃COOC₂H₅ residues (Mg? O = 2.038(5) Å). The octahedra share an edge by a double chlorine bridge between the magnesium and titanium atoms. Changes in the configurations and dimensions of the free acceptor and donor molecules on adduct formation are discussed. One of the ethylacetate residues shows positional disorder, eventually with Bonding through its ethereal oxygen.     

Nuclear quadrupole resonance in a single crystal of dimethyltin dichloride

The Zeeman NQR spectrum of a single crystal of dimethyltin dichloride has been reinvestigated in view of an improved determination of the crystal structure. The study shows the existence of two zero-splitting loci for the chlorine atoms. The quadrupole coupling constant was found to be ?30.92 MHz with an asymmetry parameter of η = 0.32. The principal EFG Z-axes are coincidental with the SnCl bonds, the Y-axes parallel to the crystallographic b-axis and the X-axes lie in the cb-plane. Using the Townes Dailey theory the fraction of π-bonding was calculated to be 0.24 with π_y-π_x = ?0.06. The imbalance in the π-bonding is rationalized on the basis of d-p overlap between the chlorine p_y-orbitals and the tin d-orbitals.     

X-RAY AND VIBRATIONAL STUDIES OF 1:1 ADDUCT OF NITROMETHANE AND TITANIUM TETRACHLORIDE

Abstract

The crystal structure of Ti₂ Cl₈ (CH₃ NO₂)₂ has been determined from three dimensional X-ray data. Crystals are monoclinic (space group P 2₁/c) with four TiCl₄ (CH₃ NO₂) units per unit cell. Lattice constants are:

a=9.55 (1) Å b=5.93 (1) Å c=16.38 (2) Å β=119.8 (1)° Atomic parameters were refined by full matrix least-squares to a final R equal to 0.055 using 1038 non-zero independent reflections. The compound is dimeric with a double chlorine bridge between titanium atoms. Titanium is octahedrally surrounded by five chlorine atoms and one oxygen atom of nitromethane which behaves as a monodentate ligand. IR and Raman spectra are discussed on the basis of the actual structure and assignments are proposed.     

Die Kristallstruktur von CuBr · (C2H5)4P2

The crystal structure of CuBr · (C₂H₅)₄P₂ has been determined by single crystal X-ray methods. The crystals are triclinic (space group P 1 ) with two formula units per unit cell (a) = 9,29, b = 9,92, c = 7,57 Å, α = 85,3°, β = 106,6°, γ = 109,1°. The copper atoms are tetrahedrally coordinated by two bromine and two phosphorus atoms (of different biphosphine molecules). The structure has continuous chains running parallel c, in which the copper atoms are linked together by alternating double bridges consisting of two biphosphine molecules and two bromine atoms, respectively.     

Synthesis and x-ray crystal structure of the TiMgCl5(OOCCH2Cl) · (ClCH2COOC2H5)3 Adduct

The synthesis of the TiMgCl₅(OOCCH₂Cl) · (ClCH₂COOC₂H₅)₃ adduct, obtained by reacting TiCl₄ with a solution of MgCl₂ in dry ClCH₂COOC₂H₅, is reported together with its molecular and crystal structure as determined by x-ray diffraction. The structure was solved by direct and Fourier methods and refined by least-squares techniques to R = 0.057 for 1318 independent observed reflections. Crystals are monoclinic, space-group P2₁/c, with 4 formula units in a unit-cell of dimensions a = 10.480(4), b = 19.641(9), c = 16.597(6) Å, β = 120.21(5)°. The titanium(IV) atom is octahedrally coordinated by five chlorine atoms and an oxygen atom of a OOCCH₂Cl residue. The magnesium atom is similarly coordinated by two chlorine atoms, the carbonyl oxygen atoms of three ClCH₂COOC₂H₅ molecules and an oxygen atom of the OOCCH₂Cl residue. The two octahedra share an edge by a double chlorine bridge between the magnesium and the titanium atoms and are also connected by the COO group of the OOCCH₂Cl residue. Changes in the configurations and dimensions with respect to the free acceptor and donor molecules are discussed.     

Crystal structure of the dichlorobis(1-allyltetrazole-N4)copper(II) complex [Cu(1-CH2=CHCH2−N4CH)2Cl4/2]∞∞

The crystal structure of the dichlorobis(1-allyltetrazole-N⁴)copper(II) complex was determined by X-ray diffraction analysis. The crystals are monoclinic, a=14.233(3), b=6.755(1), c=7.273(1) Å, β=104.63(3)°, V_cell=676.6(2), ų, space group P2₁/c, Z=4, d_calc=1.741g/cm³, d_msd=1.69 g/cm³, CAD-4, λMoK_α radiation, R_F=0.0377 for 520 F_hkl>4σ(F_hkl) and 0.0560 for all 872 independent reflections. The structure is layered; the coordination polyhedron of copper is a square bipyramid, in which the equatorial positions are occupied by two chlorine atoms (Cu?Cl 2.27(2)–2.31(2) Å) and two N⁴ atoms of planar tetrazole ligands, whereas the axial positions are occupied by two chlorine atoms of the neighboring molecules of the complex (Cu?Cl 2.97(2)–3.01(2) Å). The sublattice of chlorine atoms is disordered in such a way that the [CuCl_4/2]_∞∞ layer is a superposition of two variants with weights 61(3) and 39(3)% and with similar geometrical characteristics: the equatorial chlorine atoms in variant A are replaced by the axial atoms in variant B and vice versa. The tetrazole ligand has the same position in both variants. In general, the crystal is a polytype with random alternation of A and B type blocks. It is shown that the compound is isostructural to the complex with 1-ethyltetrazole [Cu(ettz)₂Cl₂], in which only variant B is realized.     

Zur Struktur der basischen Diquecksilber(I)-nitrate. II. Kristallstruktur des Hg10(OH)4(NO3)6

Crystal Structure of the Basic Dimercury(I) Nitrates. II. Crystal Structure of Hg₁₀(OH)₄(NO₃)₆ . The crystal structure of Hg₁₀(OH)₄(NO₃)₆ has been determined from single crystal x-ray diffraction data. The unit cell is triclinic, space group P1 , a = 999.4(5), b = 909.9(5), c = 765.9(2) pm, α = 85.98(4), β = 78.70(3), γ = 109.83(5)°; Z = 1, R = 6.2%, R_w = 8.2%. Finite cationic chains [(Hg₂)₅(OH)₄(NO₃)₂]⁴⁺ are joined together by weak van der Waals-type interactions between neighbouring Hg and O atoms, thus forming ribbons running along [100]. The coordination sphere of the Hg atoms is completed by further nitrate ions, which lead to the formation of a loose framework. Thereby the metal atoms are not surrounded by simple coordination polyhedra.     

A New Chair‐shaped Conformation Containing HgHgOHgHgO: Synthesis and Structure of Hg4(L2)2(NO3)4 (L2 = morpholin‐4‐ylpyridin‐2‐ylmethyleneamine)

. The complex Hg₄(L²)₂(NO₃)₄ ( 1 ) (L² = morpholin‐4‐ylpyridin‐2‐ylmethyleneamine) has been synthesized and characterized by CHN analysis, IR, and UV/Vis spectroscopy. The crystal structure of 1 was determined using single‐crystal X‐ray diffraction. The crystal structure of 1 contains four mercury atoms, four nitrate anions (two terminal and two bridge ones) and two L² ligand molecules. A chair shape, six‐membered ring is formed with the sequence OHgHgOHgHg built from Hg–Hg dumbbells and oxygen atoms from the nitrate co‐ligands. In the crystal structure, the asymmetric unit of the compound is built up by one‐half of the molecule. It contains the Hg₂²⁺ moiety with a mercury–mercury bonded core, in which one diimine ligand is coordinated to one of the mercury atoms. The nitrate anions act as anisobidentate and bidentate ligands.     

Structure and Properties of UO2(H2AsO4)2 · H2O

UO₂(H₂AsO₄)₂ · H₂O was synthesized by dissolving elemental uranium in arsenic acid (80.5%) for twelve weeks at room temperature. The resulting small crystals were transparent and of yellow‐green color. The crystal structure was refined from single‐crystal X‐ray data: C2/c, a = 1316.4(3) pm, b = 886.2(2) pm, c = 905.0(3) pm, β = 124.41(3)°, R1 = 0.023, wR2 = 0.060, 981 structure factors, and 65 variable parameters. The uranium atoms of this new structure type are coordinated by two very close oxygen atoms in linear arrangement. Four further oxygen atoms which belong to four different AsO₄ tetrahedra and the oxygen atom of the water molecule complete the 7‐fold coordination of the uranium atoms. [UO₂(H₂O)]²⁺ and two H₂AsO₄^– units form infinite electroneutral chains which are the main building units of the structure and which are interconnected by hydrogen bridging bonds. IR heating experiments show that dehydration around 500 K leads to a complete decomposition of the structure. Magnetic measurement gave a diamagnetic behavior with a susceptibility of χ = –8.68 10^–9 m³/mol in good agreement with the diamagnetic increment of the compound (χ = –8.20 10^–9 m³/mol) calculations with U⁶⁺.     

Solvothermal synthesis and structural characterization of a new one-dimensional metal-organic framework [Co(Atibdc)(Dpa)] n (H2Tibdc = 5-amino-2,4,6-triiodoisophthalic acid, Dpa = 2,2′-dipyridylamine)

The title cobalt(II) coordination polymer, [Co(Atibdc)(Dpa)] _n (I) (H₂Atibdc = 5-amino-2,4,6-triiodoisophthalic acid, Dpa = 2,2′-dipyridylanine), has been synthesized under solvothermal conditions and characterized by elemental analysis, IR, and X-ray crystallography structural analysis. Complex I exhibits a one-dimensional chain structure in which 5-amino-2,4,6-triiodoisophthalate as a bridging ligand interconnects adjacent two Co(II) centers to form a helical chain structure. The asymmetric unit includes one Co(II) center, one atibdc ligand, and one Dpa ligand. Each Co(II) center is five-coordinated and surrounded by two nitrogen atoms and three oxygen atoms from one Dpa ligand and two individual Atibdc ligands, leading to distorted trigonal bipyramid geometry. Adjacent chains are further linked through hydrogen bonds, C-H-π and π-π stacking interactions to form a three-dimensional supramolecular framework.     

Complex formation of 2,4,6-triallyloxy-1,3,5-triazine with copper(I,II) chloride. Synthesis and crystal structure of the Cu3Cl4 · 2C3N3(OC3H5)3 π-complex

The mixed-valence Cu₃Cl₄ · 2C₃N₃(OC₃H₅)₃ π-complex (I) is synthesized from 2,4,6-triallyloxy-1,3,5-triazine (L) and copper(II) chloride by the alternating-current electrochemical method in an ethanolic solution. Single crystals of complex I are studied by X-ray diffraction analysis: space group I4₁/a, a = 25.39(8), c = 10.14(6) Å, V = 6537(48) ų, Z = 8, R = 0.0814. The copper(I) and chlorine atoms form unique cyclic tetramers Cu₄Cl₄. The coordination sphere of each copper(I) atom includes the C=C bond of the allyl group of the ligand molecule L in addition to the two bridging chlorine atoms. Two nearest triazine rings are coordinated through the nitrogen atoms to the copper(II) atoms, whose environment is completed to a square with two chlorine atoms. An intricate three-dimensional structure is formed due to the μ₄-bridging function of the cupro(I) tetramer and the μ₂-bridging function of the ligand molecule L.     

Crystal structure and properties of the uranium chalcogenides α-US2 and α-USe2

The uranium chalcogenides α-US₂ and α-USe₂ crystallize in the tetragonal space group $\text{P4}\text{ncc}$ and not $\text{I4}\text{mcm}$ as previously reported. Their crystal structures have been determined from single-crystal X-ray diffraction data and refined to R = 0.041 and R = 0.034, respectively. Uranium atoms occupy two crystallographic sites: U(1) in (8f) and U(2) in (4c). The fourfold position, U(2), is incompletely filled with three uranium atoms which show a significant uniaxial delocalization. Properties are discussed in relation to this new crystal structure.     

Neubestimmung der Kristallstruktur von NbOCl3

NbOCl₃ was obtained from a reaction of NbCl₅ and Nb₂O₅ at 260?C. Contrary to the literature data, NbOCl₃ crystallizes in the non‐centrosymmetric space group P&4macr;2₁m as determined by single‐crystal and powder X‐ray diffraction data (crystal: a = b = 1089.59(6) pm, c = 394.79(2) pm, Z = 4, R₁ = 0.0229, wR₂ = 0.0459, powder: a = b = 1086.36(6) pm, c = 393.65(2) pm). The niobium atoms are surrounded by distorted octahedra built of four chlorine atoms and two oxygen atoms in trans positions. Two such octahedra are edge‐bridged through shared chlorine atoms, forming dimers. These units are linked to each other by apical oxygen atoms forming one‐dimensional Nb₂Cl₆O₂ chains parallel [001]. Contrary to the literature data two different Nb‐O distances are obtained.     

X-ray absorption fine structure spectroscopic study of uranium nitrides

Uranium mononitride (UN), sesquinitride (U₂N₃) and dinitride (UN₂) were characterized by extended X-Ray absorption fine structure spectroscopy. Analysis on UN indicate the presence of three uranium shells at distances of 3.46(3), 4.89(5) and 6.01(6) Å and a nitrogen shell at a distance of 2.46(2) Å. For U₂N₃, two absorbing uranium atoms at different crystallographic positions are present in the structure. One of the uranium atoms is surrounded by nitrogen atoms at 2.28(2) Å and by uranium atoms at 3.66(4) and 3.95(4) Å. The second type of uranium atom is surrounded by nitrogen atoms at 2.33(2) and 2.64(3) Å and by uranium atoms at 3.66(4), 3.95(4) and 5.31(5) Å. Results on UN₂ indicate two uranium shells at 3.71(4) and 5.32(5) Å and two nitrogen shells at 2.28(2) and 4.34(4) Å. The lattice parameters of UN, U₂N₃ and UN₂ unit cells were respectively determined to be 4.89(5), 10.62(10) and 5.32(5) Å. Those results are well in agreement with those obtained by X-Ray diffraction analysis.     

Die Reaktion von UV- und UVI-Verbindungen mit SOCl2

Reaction of U^V and U^VI Compounds with SOCl₂ UO₃, UO₂Cl₂, UCl₆, and UCl₅ reacted with OSCl₂ yield always UCl₅ · SCl₂, [SCl₃]⁺ [UCl₆]^? or a mixture of these compounds, but not an adduct UCl₅ · OSCl₂. An X-ray study was carried out with single crystals of [SCl₃]⁺[UCl₆]^?. It crystallizes in the orthorhombic space group P2₁2₁2₁ with the lattice constants a = 1066.8, b = 1071.2, c = 1133.3 pm and with Z = 4, containing isolated pyramidal SCl₃⁺ (r_SCl = 196.2 ± 1.1 pm ?SCl₂ = 102.34 ± 1.13°) and octahedral UCl₆^? ions (r_UCl = 251.1 ± 2.6 pm).