Einkristallzüchtung und Röntgenstrukturanalyse von CoSO4 · Pyrazin · 6 H2O (I) und (CoSO4)2 · Pyrazin · 12 H2O (II)

Crystal Growth and Structure of CoSO₄ · Pyrazine · 6 H₂O (I) and (CoSO₄)₂ · Pyrazine · 12 H₂O (II) Single crystals of μ-pyrazino-bis[pentaquacobalt(II)]-sulfate-dihydrate CoSO₄(pz) · 6 H₂O and Tetraqua-μ-pyrazino-cobalt(II)sulfate-dihydrate (CoSO₄)₂(pz) · 12 H₂O were grown by using gel methods and investigated by X-ray analysis. CoSO₄(pz) · 6 H₂O (I) shows monoclinic symmetry, space group C2/c; a = 1006.4(4) pm, b = 1026.9(4) pm, c = 1261.5(2) pm; β = 104.01(4)°; Z = 4. (CoSO₄)₂(pz) · 12 H₂O (II) shows orthorhombic symmetry, space group Pbam; a = 1262.3(4) pm, b = 1231.3(4) pm, c = 684.1(2) pm; Z = 2. CoSO₄ and Pyrazine crystallize in a polymeric (I) as well as in a dimeric (II) compound. In the polymeric compound the molecules are bonded by pyrazine to form alternating linear chains. The dimer is a dinuclear complex with a bridging pyrazine molecule.     

Zur Darstellung und Kristallstruktur von CrSO4 · 3 H2O

Preparation and Crystal Structure of CrSO₄ · 3 H₂O Evaporating a solution of Cr²⁺ in dilute sulphuric acid at 70°C light blue crystals of CrSO₄ · 3 H₂O were grown. Its x-ray powder diffraction pattern is quite similar to that of CuSO₄ · 3 H₂O. The crystal structure refinement of CrSO₄ · 3 H₂O (space group Ce, a = 5.7056(8) Å, b = 13.211(2) Å, c = 7.485(1) Å, β = 96.73(1)°, Z = 4) from single crystal data, using the parameters of the copper compound as starting values, results in a final R-value of R = 3.8%. The surrounding of the Cr²⁺ ion can be described as a strongly elongated octahedron. The basal plane of the CrO₆-octahedron consists of three hydrate oxygen atoms and one sulphate oxygen atom. The two more distant axial oxygen atoms also belong to sulphate groups. Thus they are forming chains of alterning CrO₆-octahedra and SO₄-tetrahedra along [110] and [1–10] linked via common corners. These chains are connected via sulphate groups and by bridging hydrogen bonds to a 3-dimensional network.     

Zur Darstellung und Kristallstruktur der Thiotellurite BaTeS3 · 2 H2O und (NH4)2TeS3

Preparation and Crystal Structure of the Thiotellurites BaTeS₃·2H₂O and (NH₄)₂TeS₃ The new compounds BaTeS₃ · 2 H₂O and (NH₄)₂TeS₃ have been prepared and their structures determined. According to these the anion of the trithiotelluric acid in these compounds represents a distorted trigonal TeS?pyramid. The Te? S-distances are 2.34–2.36 Å. Crystallographic data see ?Inhaltsübersicht”?.     

Darstellung und Kristallstruktur von Rb2Sn3S7 · 2H2O und Rb4Sn2Se6

Preparation and Crystal Structure of Rb₂Sn₃S₇ · 2 H₂O and Rb₄Sn₂Se₆ Rb₂Sn₃S₇ · 2 H₂O has been prepared by hydrothermal reaction of SnS₂ and Rb₂CO₃ in an with H₂S saturated aqueous solution at 190°C. The crystal lattice contains chain anions [Sn₃S₇^2?] which display both SnS₄ tetrahedra and SnS₆ octahedra. Methanolothermal reaction of SnCl₂ with Se and Rb₂CO₃ at 145°C leads to the formation of Rb₄Sn₂Se₆ which contains edge-bridged bitetrahedral [Sn₂Se₆]^4? anions.     

Präparation und Charakterisierung von PbBr2·C4H10O3 (Diethylenglykol)

Structural Chemistry of PbBr₂·C₄H₁₀O₃ (Diethyleneglycol) Crystals of PbBr₂·C₄H₁₀O₃ have been synthesized and structurally characterized by single‐crystal X‐ray diffraction. PbBr₂·C₄H₁₀O₃ crystallizes monoclinic in space group P2₁/n (No. 14) with a = 9.370(1)Å, b = 10.045(1)Å, c = 21.090(1)Å, β = 98.98(1)° and Z = 8. The compound contains compact Pb—Br groups, which build colums parallel to [0 1 0] direction by Hydrogen Bonding.     

Beiträge zur Chemie der Alkylverbindungen von Übergangsmetallen. 52. Darstellung,Charakterisierung und Reaktionen von (C5H5)3Ce · THF und Na[Ce(C5H5)4] · THF

Contributions to the Chemistry of Organo Transition Metal Compounds. 52. Preparation, Characterization, and Reactions of (C₅H₅)₃Ce · THF and Na[Ce(C₅H₅)₄] · THF (C₅H₅)₃ · THF ( I ) was synthesized in a simple manner by reaction of (NH₄)₂[Ce(NO₃)₆] with C₅H₅Na. With excess C₅H₅Na the complex Na[Ce(C₅H₅)₄] · THF ( II ) could be obtained. In addition of cyclovoltammetric and polarographic measurements it was tried without success to transfer I and II into organocerium( IV ) compounds by means of different oxidizing agents. II reacts with I₂ and (C₆H₅)₃CCl forming Na[(C₅H₅)₃CeI] · THF or Na[(C₅H₅)₂CeI₂] · 4 THF and I besides of (C₆H₅)₃CCl respectively. At interaction of I with Co(acac)₃ the cobalticinium salt [(C₅H₅)₂Co][C₅H₅Ce(acac)₃] is formed. The compounds obtained were characterized by elementary analysis, hydrolysis products, magnetic moments, i.r., ¹H-n.m.r. und u.v.-vis spectra, and measurements of electric conductivity.     

Darstellung und spektroskopische Charakterisierung der Monofluorohydro-closo-Borate [B6H5F]2− und [B12H11F]2−

Preparation and Spectroscopic Characterization of the Monofluorohydro-closo-borates [B₆H₅F]^2? and [B₁₂H₁₁F]^2? By treatment of [B₆H₆]^2? with 1-(chloromethyl)-4-fluoro-1,4-diazabicyclo[2.2.2]octane-bis(tetrafluoroborate)in acetonitrile monofluorohydro-closo-hexaborate [B₆H₅F]^2? ( 1 ) is formed in good yields. [B₁₂H₁₂]^2? reacts with unhydrous HF yielding the monofluorododecaborate [B₁₂H₁₁F]^2? ( 2 ). These compounds are separated by ion exchange chromatography on diethylaminoethyl(DEAE) cellulose from by-products. The ¹¹B nmr spectra exhibit the characteristic patterns (1 : 4 : 1) of a monosubstituted B₆ octahedron and (1 : 5 : 5 : 1) of a monosubstituted B₁₂ icosahedron with strong downfield shifts of the ipso-B nuclei at +9.3 ppm ( 1 ) and at +9.0 ppm ( 2 ). The ¹⁹F nmr spectra reveal quartets at ?212 ppm ( 1 ) and ?209 ppm ( 2 ) proving a B? F bonding. In the i.r. spectra, for ( 1 ) in the Raman spectrum too, cage vibrations depending on the F substituent at 1195 ( 1 ) and at 1182/1154 cm^?1 ( 2 ) are observed. The Raman spectra show the B₆F stretching mode at 535 cm^?1 and the B₁₂F stretching vibration at 445 cm^?1.     

Molybdännitridtrichlorid-di-n-butylether, [MoNCl3 · O(C4H9)2]4; Darstellung,IR-Spektrum und Kristallstruktur

Molybdenum-nitride-trichloride-di-n -butylether [MoNCls₃ · 0 (C₄H₉)₂]₄; Preparation, I.R. Spectrum, and Crystal Structure Phenyldiazonium tetrachloronitridomolybdate, C₆H₅N₂[MoNCl₄], was obtained in the form of orange-red crystals from phenyldiazonium chloride and molybdenum nitride chloride in POCl₃ suspension. In boiling di-n-butylether it decomposes to chlorobenzene and the title compound which is obtained in the form of dark red crystals, sensitive to moisture. [MoNCl₃ · O(C₄H₉)₂]₄ can also be obtained directly from MoNCl₃ and dibutylether. It crystallizes in the monoclinic space group P2₁/c with two tetrameric molecules per unit cell. The lattice constants are at ?49°C a = 1 283, b = 1 170, c = 1 922 and β = 94.11°. The crystal structure was determined with the aid of X-ray diffraction data and was refined to a residual index of R = 0.047 for 1951 observed reflexions. In the [MoNCl₃ · O(C₄H₉)₂]₄ molecule the Mo atoms form a square; they are linked with one another via the N atoms with alternating Mo? N distances of 165 and 215 pm, which indicate triple and single bonds, respectively. In the position trans to the shorter Mo?N bond, the ether molecule is bonded by its oxygen atom. The I.R. spectra of C₆H₅N₂[MoNCl₄], C₆H₅N₂[MoCl₆], and [MoNCl₃ · O(C₄H₉)₂]₄ are recorded.     

Darstellung der freien Dodekawolframatoaluminiumsäure H5[AlO4W12O36] · 6 H2O mittels Gefriertrocknung

Preparation of the Free 12-Tungstoaluminium Acid H₅[AlO₄W₁₂O₃₆] · 6 H₂O by Means of the Cryogenic Method The title compound was first prepared in solid state from its aqueous solution by means of the cryogenic method and characterized by chemical and thermal analyses, IR and UV spectroscopy. From X-ray heating patterns the formation of a new cubic phase 1/2 Al₂O₃ · 12 WO₃ (I) at 400°C was found, being stable till 830°C: a = 378 pm (600°C). High-resolution ²⁷Al NMR (MAS-technique) was used to determine the tetrahedral coordination of aluminium in the title compound and the octahedral coordination in I. The degradation of the doped WO₃-phase I into Al₂(WO₄)₃ begins at 600°C. Above 830°C tetragonal WO₃ and Al₂(WO₄)₃ coexist.     

Darstellung und Eigenschaften von Na2CuII (SO4)2 · 6 H2O

Preparation and Properties of Na₂Cu^II (SO₄)₂ · 6 H₂O The preparation of the complex compound of Na₂Cu(SO₄)₂ · 6 H₂O is described. Its structure and properties were investigated using spectral methods (u.v.-vis., i.r., n.m.r.), by means of X-ray powder diffraction, and by thermal methods. On the basis of experimental results it is suggested that another member of the Tutton salts series has been prepared, appearring isostructural with them and showing the less distorted coordination polyhedron of [Cu(H₂O)₆]²⁺ from them. On its dehydration oxygen atoms from the sulphate groups enter the coordination sphere of Cu^II and the symmetry of SO₄^2? becomes lower. The experimental results indicate that Na₂Cu(SO₄)₂ · 6 H₂O as also Na₂Cu(SO₄)₂ as likewise Na₂Cu(SO₄)₂ · 2 H₂O are monoclinic.     

Darstellung,Kristall- und Molekülstruktur von Triphenylphosphinoxidhydrochlorid (C6H5)3PO · HCl

On Phosphazo Compounds from Nitriles. IV. The Reaction of Tri, Di, and Monochloroacetonitrile with [Cl₃P?N? PCl₃]Cl. Improved Preparation of [Cl₃P?N? PCl₃]Cl Trichloroacetonitrile reacts with P₂NCl₇ to give Cl₃C? CCl₂? N?PCl₂? N?PCl₃ I , dichloroacetonitrile to give Cl₂C?CCl? N?PCl₂? N?PCl₃ II , and chloroacetonitrile to give the ring compound III . Preparation, n.m.r. and mass spectra of the new compounds are described. The mechanism of formation is discussed. An improved procedure for the preparation of P₂NCl₇ is given.     

Benzodithiazolium‐Chlorooxomolybdate(V): Darstellung und Kristallstruktur von (C6H4NS2)[MoOCl4] und (C6H4NS2)[MoOCl4·H2O]

Benzodithiazolium Chlorooxomolybdate(V): Preparation and Crystal Structure of (C₆H₄NS₂)[MoOCl₄] and (C₆H₄NS₂)[MoOCl₄·H₂O] Red benzo‐1,3,2‐dithiazolium‐chlorooxomolybdate(V) (C₆H₄NS₂)[MoOCl₄] ( 1 ) was obtained by the reaction of benzo‐1,3,2‐dithiazoliumchloride and molybdenum(V)chloride oxide in dichlormethane under solvothermal conditions at 70 °C. In the presence of small amounts of concentrated hydrochloric acid the yellow compound (C₆H₄NS₂)[MoOCl₄·H₂O] ( 2 ) is formed under analogue conditions. Both crystal structures ( 1 : monoclinic, C2/c, a = 799.2(1), b = 2091.5(2), c = 791.5(1) pm, β = 102.2(1)°, Z = 4; 2 : monoclinic, Cc, a = 953.7(1), b = 2468.9(3), c = 608.1(1) pm, β = 112.5(1)°, Z = 4) contain the planar benzo‐1,3,2‐dithiazolium ion. Within the structure of 1 the molybdenum atoms in the [MoOCl₄]^? ions are coordinated in a square pyramidal fashion with an oxygen atom in apical position and the basal plane formed by chlorine atoms. The nitrogen atom of the cation, which bears a partial negativ charge, expands the coordination to a distorted octahedron. The structure therefore is made up of ionic pairs {(C₆H₄NS₂)⁺ [MoOCl₄]^?} with a Mo–N distance of 266 pm. 1 is paramagnetic with a magnetic moment of 1.7 B.M. corresponding to one unpaired electron per formula unit. In the structure of 2 the coordination of the [MoOCl₄]^? ion is expanded by the oxygen atom of a coordinating water molecule. The structure is dominated by hydrogen bonds between the oxygen atoms of the [MoOCl₄·H₂O]^? ions which cause the concatenation of the anions to infinite chains.     

Darstellung sowie Kristall- und Molekülstruktur von Triphenylphosphinoxidhydrogenfluorid, (C6H5)3PO · HF

Preparation, Crystal and Molecular Structure of Triphenylphosphineoxide Hydrogen - fluoride (C₆H₅)₃PO · HF (C₆H₅)₃PO · HF was prepared from hydrofluoric acid (40%) and (C₆H₅)₃PO in benzene. It crystallizes in the monoclinic space group P2₁/c with a = 1 032.8(3), b = 1 051.0(7), c = 1695.5(2) pm, β = 121.95(2)° and Z = 4; d (calc./obs.) 1.27/1.26 g ° cm^?3. The structure was determined by direct methods from 2 709 independent reflections and has been refined by full matrix least squares methods to R = 0.049. In the compound HF and (C₆H₅)₃PO are linked by a short H-bond. Some distances: O? F 238.4(5), O? H 142.3, H? F 99.8, P? O 149.5(4) pm. Angle O? H? F 159.8°.     

Darstellung sowie Kristall- und Molekülstruktur von 2 (C6H5)3PO · (COOH)2

Preparation, Crystal and Molecular Structure of 2 (C₆H₅)₃PO · (COOH)₂ 2(C₆H₅)₃PO · (COOH)₂ crystallizes from a solution of oxalic acid and (C₆H₅)₃PO in methanol. Crystal data: space group P2₁/c (monoclinic) with a = 907.4(2), b = 1035.4(3), c = 1797.9(8) pm, β = 75.20(1)° and Z = 2; d (calc./obs.) = 1.27/1.31 g cm^?;3; V_cell = 1633.1 × 10⁶ pm³. The structure was determined by direct methods from 3006 independent reflections and has been refined by full matrix least squares to R = 0.049. In the compound one molecule of trans-oxalic acid and two symmetrically dependent (C₆H₅)₃PO units are linked by short O…?H–O bridges distances and angles see above.     

C70(OsO4Py2)3配合物的合成和表征

自从1985年Kroto等[1,2]发现富勒烯(球烯)以来,在化学、物理和材料等领域逐渐地形成了富勒烯的研究热潮,现在人们正将较多注意力投向富勒烯的各类衍生物结构与性能之间内在联系规律的研究,以期望在开发应用方面取得更大的进展,为此也更加重视对具有特殊组成与结构的富勒烯衍生物的研究.本文首次合成并表征了C70(OsO4PY2)3配合物,推测了其可能的结构.     

Zur Struktur von zwei Hydraten des Natriumphenolats: C6H5ONa · H2O und C6H5ONa · 3 H2O

The Structures of two Hydrates of Sodium Phenoxide: C₆H₅ONa · H₂O and C₆H₅ONa · 3 H₂O In the monohydrate of sodium phenoxide sodium is coordinated by 4 oxygen atoms having an average distance Na? O of about 2.631 Å being arranged in form of a distorted tetrahedron. The oxygen atoms of water and phenoxid serve as bridging ligands. Hence, the structure can be considered as a network with a general formula [Na^[4]O]. Moreover, the oxygen atoms are linked via hydrogen bonding. In the trihydrate of sodium phenoxide sodium is surrounded with 5 oxygen atoms with an average distance of 2.39 Å forming a tetragonal pyramide. The oxygen of the phenoxide, however, does not participate in the coordination of the sodium ion. The coordination polyhedrons are connected by sharing edges and verteces. The resulting layer can be described by the general formula [Na^[5]O₂^[2]O^[2]O^[1]]. Via hydrogen bonding the phenoxide ions are attached to this layer.