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.     

Untersuchungen über Iodoferrate: Die Kristallstrukturen von Fe(THE)6(FeI3THF)2 · THF und Fe(Ch2O)6(FeI4)2 · I2(THF = C4H8O)

Investigations about Iodoferrates: The Crystal Structures of Fe(thf)₆(FeI₃thf)₂ · thf and Fe(CH₂O)₆(FeI₄)2 · I₂(thf = C₄H₈O) The crystal structures of FeI₂ · 3 thf (i.e. Fe(thf)₆(FeI₃thf)₂ · thf) ( 1 ) and Fe(CH₂O)₆(FeI₄)₂ · I₂ ( 2 ) were determined from single crystal X-ray data. 1 crystallizes in the cubic space group Pa3, a = 1759.8 pm, Z = 4, 2 in the monoclinic space group P2₁/n, a = 997.4, b = 1669.4, c = 1082.6 pm, β = 93.11°, Z = 2. The structure of 1 is composed of octahedral Fe(thf)₆²⁺ cations and distorted tetrahedral [FeI₃(thf)]-anions (Fe? I distance 261.1 pm). In 2 two tetrahedral tetraiodoferrate (III) anions are linked by an iodine molecule. The Fe? I distance was found to be 253.9 pm (mean, the I? I distance between FeI₄^? and I₂ 356.1 pm. The decomposititon of 1 in vacuum at elevated temperatures and the resulting formation of 2 from 1 are discussed.     

Darstellung und NMR-spektroskopische Untersuchung eines hexakoordinierten p-Tolylo-tantal(V)-Komplexes: [(p-CH3C6H4)5 Ta(p-CH3C6H4)Li · O(C2H5)2]

Preparation and N.M.R.-spectroscopie Investigation of a Hexacoordinated p-Tolylotantalum(V) Complex: [(p-CH₃C₆H₄)₅Ta(p-CH₃C₆H₄)Li · O(C₂H₅)₂] Reaction of tantalum(V) bromide with an etheral solution of p-tolyllithium in the molar ratio 1:5 leads to precipitation of a yellow complex of the brutto formula LiTaTol₆ · Ae[Tol = p-CH₃C₆H₄^?; Ae = (C₂H₅)₂O]. The ¹H and ¹³C n.m.r. spectra are discussed.     

Aryl- und Arin-Komplexe von Übergangsmetallen der sechsten Gruppe Darstellung von [Mo(p-C6H4CH3)6(Li · OC4H10)3] und [W(p-C6H4CH3)4(C6H3CH3)2(Li · OC4H10)4] sowie NMR-spektroskopische Untersuchung des W-Komplexes

Aryl and Aryne Complexes of Group Six Transition Metals. Preparation of [Mo(p-C₆H₄CH₃)₆(Li · OC₄H₁₀)₃] und [W(p-C₆H₄CH₃)₄(C₆H₃CH₃)₂(Li · OC₄H₁₀)₄] and NMR Spectroscopic Investigation of the W Complex Molybdenum(V) chloride reacts with an etheral solution of p-tolyllithium (molar ratio 1:10) to yield a yellow, strongly paramagnetic hexatolylo complex ([MoTol₆(Li · S)₃]¹) (μ_eff = 3.51 B.M.), while from tungsten(V) bromide and p-tolyllithium (molar ratio 1:11) a blackish violet, diamagnetic complex [WTol₄Tn₂(Li · S)₄] is formed, containing two tolylene or tolyne groups for ligands. The ¹H-NMR spectrum points to the Tol-ligands being influenced by the methyl groups of the Tn-ligands.     

Kristall- und MolekülStruktur von 2(C6H5)3AsO · H2SeO3

Crystal and Molecular Structure of 2(C₆H₅)₃AsO · H₂SeO₃ 2(C₆H₅)₃AsO · H₂SeO₃ crystallizes in the orthorhombic space group Fdd2—C_2v¹⁹, with a = 20.472(9), b = 32.747(1) and c = 10.008(8) Å and Z = 8; d (calc./obs.) = 1.52₇/1.52 g · cm^?3. The structure has been determined from 808 independent reflections by Patterson- and Fouriersyntheses, and has been refined by least squares methods to R = 0.056. In the compound two (C₆H₅)₃AsO-units and one selenite group are linked by short H-bonds [O …? H …? O-distance 2.48(4) resp. 2.35(4) Å]. The As? O-distances are 1.64(9), the Se? O-distances are 1.69(3), 1.83(3), resp. 1.76(3) Å.     

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.     

Darstellung und Kristallstruktur von [Co(NH3)6]2P4O13 · 5 H2O

Preparation and Crystal Structure of [Co(NH₃)₆]₂P₄O₁₃ 7·5H₂O Single crystals of [Co(NH₃)₆]P₄O₁₃ · 5 H₂O were obtained by diffusion controlled growth. To this end sodium polytetraphosphate was prepared by column chromatography and allowed to react with [Co(NH₃)₆]Cl₃. The compound [Co(NH₃)₆]₂P₄O₁₃ · 5 H₂O contains the novel isolated polytetraphosphate anion. The expected systematic variation in bond length in the P? O? P bridges of the poly tetraphosphate anion was verified. The conformation of the anion is discussed.     

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.     

Die ersten Hydrogencarbonate mit einer trimeren [H2(CO3)3]4−-Baugruppe: Zur Darstellung und Kristallstruktur von Rb4H2(CO3)3 · H2O und K4H2(CO3)3 · 1,5 H2O

The First Hydrogencarbonates with a Trimeric [H₂(CO₃)₃]^4? Group: Preparation and Crystal Structure of Rb₄H₂(CO₃)₃ · H₂O and K₄H₂(CO₃)₃ · 1.5 H₂O Rb₄H₂(CO₃)₃ · H₂O and K₄H₂(CO₃)₃ · 1,5 H₂O were prepared by means of the reaction of (CH₃)₂CO₃ with RbOH resp. KOH in aqueous methanole. Trimer [H₂(CO₃)₃]^4?-anions were found in the crystal structure of Rb₄H₂(CO₃)₃ · H₂O (orthorhombic, Pnma (no. 62), a = 1 218.0(1) pm, b = 1 572.3(6) pm, c = 615.9(1) pm, V_EZ = 1 179.5(5) · 10⁶ pm³, Z = 4, R1(I ≥ 2σ(I)) = 0.027, wR2(I ≥ 2σ(I)) = 0.055). K₄H₂(CO₃)₃ · 1,5 H₂O crystallizes in an OD-structure. The determined superposition structure (orthorhombic, Pbam (no. 55), a = 1 161.8(1) pm, b = 597.0(1) pm, c = 383.85(3) pm, V_EZ = 266.3(1) · 10⁶ pm³, Z = 1, R1(I ≥ 2σ(I)) = 0.035, wR2(I ≥ 2σ(I)) = 0.074) can be derived from the structure of the rubidium compound. The thermal decomposition of the substances is discussed.     

Komplexe mit substituierten 2,5-Dihydroxy-p-benzochinonen: EAC6(C6H5)2O4 · 4 H2O (EA = Sr2+, Ba2+)

Complexes with Substituted 2,5-Dihydroxy-p-benzochinones: EAC₆(C₆H₅)₂O₄ · 4 H₂O (EA = Sr²⁺, Ba²⁺) Single crystals of the isotypic compounds EAC₆(C₆H₅)₂O₄ · 4 H₂O were grown in aqueous silicagel. EA²⁺ has CN 8. It is surrounded by four water molecules and four oxygen atoms of the bis-chelating polyporate dianions. Thereby folded chains are formed which are interlinked by hydrogen bonds. Thus building up corrugated layers with the phenyl substituents almost perpendicular to the layer plane. The layer stacking provides that they can engage into another.     

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.     

Darstellung und Charakterisierung der Fulleren-Kokristallisate C60 · 12 C6H12, C70 · 12 C6H12, C60 · 12 CCl4, C60 · 2 CHBr3, C60 · 2 CHCl3, C60 · 2 H2CCl2

Synthesis and Characterization of the Fullerene Co-Crystals C₆₀ · 12 C₆H₁₂, C₇₀ · 12 C₆H₁₂, C₆₀ · 12 CCl₄, C₆₀ · 2CHBr₃, C₆₀ · 2CHCl₃, C₆₀ · 2H₂CCl₂ By crystallization of fullerenes from non-polar solvents (C₆H₁₂, CCl₄, CHBr₃, CHCl₃, H₂CCl₂) compounds of the following compositions were obtained: C₆₀ · 12C₆H₁₂, C₇₀ · 12C₆H₁₂, C₆₀ · 12CCl₄, C₆₀ · 2CHCl₃, C₆₀ · 2CHBr₃ and C₆₀ · 2H₂CCl₂. Lattice parameters have been determined by X-ray diffraction of powder samples; according to single-crystal examinations on C₆₀ · 12C₆H₁₂, C₆₀ · 12CCl₄ and C₆₀ · 2CHBr₃ the fullerene is orientationally disordered. C₆₀ · 12C₆H₁₂, cubic, a = 28.167(1) Å; C₇₀ · 12C₆H₁₂, cubic, a = 28.608(2) Å; C₆₀ · 12CCl₄, cubic, a = 27.42(1) Å; C₆₀ · 2CHBr₃, hexagonal, a = 10.212(1), c = 10.209(1) Å; C₆₀ · 2CHCl₃, hexagonal, a = 10.08(1), c = 10.11(2) Å; C₆₀ · 2H₂CCl₂, tetragonal, a = 16.400(1) Å, c = 11.645(7) Å.     

Über die Kristallstruktur von (C6H5)3SiSH und (C6H5)3SiSBr und die Darstellung des Iodsulfans (C6H5)3SiSI

The Crystal Structure of (C₆H₅)₃SiSH and (C₆H₅)₃SiSBr and the Preparation of the Iodosulfane (C₆H₅)₃SiSI The preparation of the halogenosulfanes Ph₃SiSBr and Ph₃SiSI from Ph₃SiSH and N-halogenosuccinimide is reported. They are characterized by vibrational spectroscopic measurements. Ph₃SiSBr crystallizes in space group P1 with a = 899.3(8) pm, b = 941.3(7) pm, c = 1 051.4(7) pm, α = 109.88(5)°, β = 99.23(6)°, γ = 96.78(6)° and Z = 2. Ph₃SiSH crystallizes in space group P2₁/c with a = 1 879.4(8), b = 966.3(5), c = 1 845.2(9), β = 107.84(4), Z = 8. The halogenosulfanes decompose in polar solvents by formation of sulphur and triphenylsilanhalide.     

Crystal Structure of Tetrakis (phenacetin) Dihydrogentetraiodide Dihydrate {[H5C2OC6H4N (H)C(CH3)O]4·H2I4·2H2O}

(Phenacetin)₄·₂I₄·2H₂O is triclinic, a = 13.641 (7), b = 12.807 (6), c = 7.201 (3) Å, α = 99.8 (4), b? = 86.5 (4), γ = 104.0 (5)°, P1 , Z = 1. The ordered crystal structure has been refined to R_F = 0.050, using 4173 independent reflections measured on a four-circle diffractometer with MoKa (graphite monochromator) radiation. The crystals are composed of alternating positively and negatively charged slices; each positive slice contains a double layer of stacks of hemi-protonated phenacetin molecules which are H-bonded through their carbonyl groups (d(O - - - O) = 2.432 (4) Å) while each negative slice contains a single layer of I^2?₄-ions linked in chains along [100] through H-bonds to pairs of water molecules. The axes of the phenacetin stacks are parallel to the planes of the (I^2?₄·2H₂O)-layers. The I^2?₄-ion is centro-symmetric and can be approximately represented as I^?- - - I–I- - - I^? (d(I^? - - - I) = 3.404 (1) Å; d(I–I) = 2.774 (1) Å). The compound is a pseudo-type A basic salt.     

Na2Co(H2PO4)4·4H2O

In the title compound, disodium cobalt tetrakis­(dihydrogen­phosphate) tetrahydrate, the Co^II ion lies on an inversion centre and is octahedrally surrounded by two water molecules and four H₂PO₄ groups to give a cobalt complex anion of the form [Co(H₂PO₄)₄(OH₂)]^2?. The three‐dimensional framework results from hydrogen bonding between the anions. The relationship with the structures of Co(H₂PO₄)₂·2H₂O and K₂CoP₄O₁₂·5H₂O is discussed.     

Syntheses of(C_8H_8)Ln(C_9H_7)·(THF)_2(Ln=Pr,Nd)and crystal structure of(C_8H_8)Pr(C_9H_7)·(THF)_2

This paper reports two lanthanide complexes of formula (C_9H_7)Ln(C_8H_8)·(THF)_2 whereLn is Pr or Nd,C_9H_7 is indenyl,and C_8H_8 is cyclooctatetraene (COT).The complexes were preparedby the reaction of LnCl_3 with K(C_9H_7) and K_2(C_8H_8) in THF.(C_9H_7)Pr(C_8H_8)·(THF)_2 crystallizes inTHF at - 15℃ in the monoclinic space group P2_1:with unit cell dimensions a=8.446(0),b=10.083(2),c=13.407(3),β=105.48(1)°,V=1100.43(35)~3,Dc=1.52g/cm~3 and Z=2.The final R valueis 0.033,R_w value is 0.030,respectively.In (C_9H_7)Pr(C_8H_8)·(THF)_2 a five-membered ring centroid ofC_9H_7,the C_8H_8 ring centroid and the two oxygen atoms from the two THF molecules form a distortedtetrahedral geometry around the metal.     

Erdalkali-Fluoromanganate(III): BaMnF5 · H2O und SrMnF5 · H2O

Alkaline Earth Fluoromanganates(III): BaMnF₅ · H₂O and SrMnF₅ · H₂O Solid BaF₂ or SrF₂ forms with solutions of Mn³⁺ in aqueous hydrofluoric acid precipitates of hitherto unknown BaMnF₅ · H₂ and SrMnF₅ · H₂O respectively. X-ray structure determination on single crystals of both isotypic compounds (space group P2₁/m, Z = 2; BaMnF₅ · H₂O: a = 537.0(3), b = 817.2(2), c = 628.0(4) pm β = 111.17(5)°, R_w = 0.035 for 1403 reflections; SrMnF₅ · H₂O: a = 510.8(1), b = 792.0(2), c = 610.6(1) pm, β = 110.24(1)° R_w = 0.068 for 539 reflections) reveal pure [MnF₆]^3? octahedra connected with each other to infinite chains by sharing trans corners. The H₂O molecules are coordinated to the alkaline earth ions only and form weak O? H…F hydrogen bonds. The pronounced weakening of the Mn? F bonds within the chain direction (Mn? F 2X 212.7(1)/210.8(5) pm, 2X 183.8(3)/181.8(9) pm, 2X 186.9(2)/187.2(8) pm) may be due by halves to the Jahn-Teller-effect as can be deduced by bond valence calculations.     

Polyol-Metall-Komplexe. XIII [1]. Na2[Be(C4H6O3)2] · 5H2O und Na2[Pb(C4H6O3)2] · 3H2O – zwei homoleptische Bis-polyolato-metallate mit Beryllium und mit Blei

Polyol Metal Complexes. XIII. Na₂[Be(C₄H₆O₃)₂] · 5H₂O and Na₂[Pb(C₄H₆O₃)₂] · 3H₂O – Two Homoleptic Bis Polyolato Metallates with Beryllium and with Lead Na₂[Be(C₄H₆O₃)₂] · 5H₂O ( 1 ) and Na₂[Pb(C₄H₆O₃)₂] · 3H₂O ( 2 ) crystallize from concentrated, alkaline aqueous solutions. The polyol anhydroerythritol is deprotonated twice in the mononuclear, homoleptic complex anions. The preference of beryllium for the binding of cis-furanoid diols is shown. In 2 , a stereochemically active lone pair at the central atom is the reason for the construction of low dimensional aggregates from three plumbate and three sodium ions.     

Darstellung und Kristallstrukturen der ersten Alkalimetall‐hexacarbonatooxotetraberyllate: K6[Be4O(CO3)6] · 7 H2O und K6[Be4O(CO3)6]

Preparation and Crystal Structures of the first Alkalimetall‐hexacarbonato‐oxotetraberyllates: K₆[Be₄O(CO₃)₆] · 7 H₂O and K₆[Be₄O(CO₃)₆] K₆[Be₄O(CO₃)₆] · 7 H₂O has been prepared by dissolving freshly precipitated Be(OH)₂ in an aqueous KHCO₃ solution. After enriching the title compound by extraction with ethanol the heptahydrate crystallizes from the organic phase (triklin, P1¯ (No. 2) with a = 951, 01(11), b = 958, 45(12), c = 1601, 7(2) pm, α = 79, 253(13)°, β = 78, 943(12)°, γ = 65, 119(12)°, V_EZ = 1290, 6(3)·10⁶ pm³, Z = 2). Thermal decomposition forms rhombohedral crystals of the anhydrous compound (trigonal‐rhombohedric, R3¯ (No. 148) with a = 1416, 42(6), c = 1704, 5(1) pm, V_EZ = 2961, 4(3)·10⁶ pm³, Z = 6).