Synthese und Charakterisierung von Na5AsO5

Synthesis and Characterisation of Na₅OAsO₄ Na₅AsO₅ was prepared from a mixture of Na₂O and Na₄As₂O₇ by solid state reaction at 500 °C in closed silver crucibles. The crystal structure (X‐ray powder data, profilematching: Pbcm, a = 596.4(1), b = 1643.3(1), c = 642.1(1) pm, Z = 4, R_p = 0.0764, R_wp = 0.1019) shows unchanged AsO₄^3–‐tetrahedra and strings of cis‐condensed ONa₆‐octahedra. IR and Raman data are given.     

Synthese und Charakterisierung von Natriumcyanamid

Synthesis and Characterization of Sodium Cyanamide The synthesis of Na₂CN₂ was carried out by reaction of sodium amide with sodium hydrogen cyanamide at 200 °C, in vacuum. Single crystals were obtained while heating the product (500 °C, 8 days) in silver crucibles. The title compound was characterised by single crystal X‐ray diffraction and IR‐spectroscopy (C2/m; Z = 2, a = 5.0456(3), b = 5.0010(3), c = 5.5359(3) Å; β = 110.078(5)°; R1 = 3.18%, wR2 = 6.35%, GOF = 1.078). The CN₂^2– units are linear exhibiting a C–N bond length of 1.236(1) Å, while sodium is coordinated by five nitrogen atoms forming a square pyramid. The structural relationships to aristotypic Na₂HgO₂ are pointed out.     

Synthese und Charakterisierung von Dimesitylzink

Synthesis and characterization of dimesityl zinc Dimesityl magnesium reacts with zinc chloride in THF solution forming dimesityl zinc. This compound is free of solvent and monomer in benzene. 2,2′-Bipyridine and tetramethylethylenediamine yield weak complexes. Thermal behaviour and spectroscopic properties of these compounds and some reactions of ZnMes₂ are described.     

Synthese und Charakterisierung von Quecksilbercyanamid

Synthesis and Characterisation of Mercury Cyanamide HgCN₂ was prepared by double conversion of HgCl₂ with sodium cyanamide in aqueous solution. Its crystal structure has been determined using X‐ray powder data and refined by combined profile fits using X‐ray and neutron diffraction data (Pbca, Z = 8, a = 10.4851(1), b = 6.5138(1), c = 6.8929(1) Å; R_p (X‐ray) = 6.15%; R_p (neutrons) = 2.33; 2.43%). The cyanamide‐anion is bent (172.4(7)°), which has been confirmed by vibrational spectroscopy. Mercury and carbon form zigzag chains. Not including nitrogen, the structure is related to the MnP‐structure type.     

Synthese und Charakterisierung von Fluorenylgallaten und Fluorenylindaten

Synthesis and Characterization of Fluorenyl Gallates and Fluorenyl Indates GaCl₃ reacts with Fluorenyllithium (LiFl) in the ratio 1:4 in Et₂O to [Li(THF)₄][GaFl₄] ( 1 ). The addition of DME (1,2-dimethoxyethane) to solutions of 1 in THF leads to [Li(DME)₃][GaFl₄] ( 2 ) under replacement of THF molecules by DME molecules in the coordination sphere of the Li⁺ ions. Treatment of InCl with LiFl in Et₂O and recrystallization from THF gives [Li(THF)₄][ClInFl₃] ( 3 ), which is formed by an disproportionation reaction. 3 can also be obtained by the reaction of InCl with FlZnCl/LiCl in Et₂O and recrystallization from THF. 1 and 2 crystallize from THF and THF/DME as [Li(THF)₄][GaFl₄] · THF ( 1 · THF) and [Li(DME)₃][GaFl₄] · THF ( 2 · THF), respectively. Crystalline 3 is isolated from the reaction of InCl and FlZnCl/LiCl, while the reaction mixture of InCl and LiFl gives after recrystallization in THF 3 · 1,5 THF. The gallate ions in 1 and 2 differ mainly in the position of the fluorenyl ligands. The unit cells of 3 and 3 · 1,5 THF contain two crystallographic unique ion pairs of [Li(THF)₄][ClInFl₃].     

Synthese und strukturelle Charakterisierung von Borsubphthalocyaninaten

Synthesis and Structural Characterization of Boron Subphthalocyaninates Halosubphthalocyaninatoboron, [B(X)_spc] (X = F, Cl, Br) is obtained by heating phthalonitrile with boron trihalide in quinoline (X = F) or the corresponding halobenzene, resp. [B(C₆H₅)_spc] is prepared from phthalonitrile and tetraphenylborate or tetraphenyloboron oxide, resp. [B(OR)_spc] (R = H, CH(CH₃)₂, C(CH₃)₃, C₆H₅) is synthesized by bromide substitution of [B(Br)_spc] in pyridine/HOR. Substitution of [B(Br)_spc] in carboxylic acids yields [B(OOCR)_spc] (R = H, CX₃ (X = H, Cl, F), CH₂X (X = Cl, C₆H₅), C₆H₅). All subphthalocyaninates are characterized electrochemically and by UV‐VIS, IR/FIR, resonance Raman, and ¹H/¹⁰B‐NMR spectroscopy. Typical B–X stretching vibrations are at 622 (X = Br), 950 (Cl), 1063 (F), 1096 cm^–1 (OH) as well as between 1119 and 1052 cm^–1 (OR) resp. 985 and 1028 cm^–1 (OOCR). The difference ν(C=O)–ν(C–O) > 400 cm^–1 confirms the unidentate coordination of the carboxylato ligands. According to the crystal structure analysis of [B(OH)_spc], [B(OH)_spc] · 2 H₂O, [B(C₆H₅)_spc], [B(OC(CH₃)₃)_spc], [B(OOCCH₃)_spc] · 0.5 H₂O · C₂H₅OH and [B(OOCCH₃)_spc] · 0.4 H₂O · 1.1 C₅H₅N the _spc ligand is concavely distorted. This saucer shaped conformation is independent of the acido ligands and the presence of solvate. The outermost C atomes are vertically displaced in part by more than 2 Å from the N_i plane. The B atom is in a distorted tetrahedral coordination geometry. It is displaced by ca 0.64 Å out of the N_i plane towards the acido ligand. The average B–N distance is 1.500 Å, and the B–O distances range from 1.418(5) to 1.473(2) Å.     

Synthese und Charakterisierung von Copolymeren aus Azo-Initiatoren und Styrol

Ohne Zusammenfassung     

Synthese,Charakterisierung und Struktur von Carbonylund Hydrido-Isocyanatokomplexen des Rutheniums

Synthesis, Characterization, and Structure of Carbonyl and Hydrido Isocyanato Complexes of Ruthenium [Ru(CO)H(NCO)(PPh₂Me)₃] is formed during the reaction between [RuCl₃(PPh₂Me)₃] and NaOCN in EtOH. The compound crystallizes in the monoclinic space group P2₁/n (a = 1256.4(4), b = 1487.2(2), c = 1993.5(5) pm, β = 97.28(1)°, Z = 4). The distorted octahedral coordination sphere of Ru^II contains the phosphine ligands in meridional arrangement, their P atoms forming a plane together with the hydride ligand. The reaction of [RuCl₃(PPh₃)₂] with NaOCN in EtOH yields [Ru(NCO)(CO)(CH₃COO)(PPh₃)₂] with trans coordinated Ph₃P ligands. The formation of hydrido, carbonyl and acetato ligands are due to the reaction of the transition metal with the solvent ethanol.     

Synthese,Charakterisierung und Kristallstrukturen von Tetraiodoferraten(III)

Preparation, Characterization, and Crystal Structures of Tetraiodoferrates(III) The extremely air and moisture sensitive tetraiodoferrates MFeI₄ with M = K, Rb and Cs have been synthesized by reaction of Fe, MI and I₂ at 300°C in closed quartz ampoules. The essentially more stable alkylammonium tetraiodoferrates NR₄FeI₄ with R = H, C₂H₅, n-C₃H₇, n-C₄H₉ and n-C₅H₁₁ can be obtained by reaction of Fe, NR₄I and I₂ in nitromethane. The Raman and UV/Vis-spectra of the black compounds show the existence of tetrahedral [FeI₄]^? ions in the structures. The crystal structure of the monoclinic CsFeI₄ (CsTlI₄ type, spgr P2₁/c; a = 7.281(1) Å; b = 17.960(3) Å; c = 8.248(2) Å; β = 107.35(15)°) is built up by tetrahedral [FeI₄]^? ions and CsI₁₁ polyhedra. The crystal structure of the orthorhombic (n-C₅H₁₁)₄NFeI₄ (spgr Pnna; a = 20.143(4) Å; b = 12.683(3) Å; c = 12.577(3) Å) contains tetrahedral [(n-C₅H₁₁)₄N]⁺ ions and [FeI₄]^? ions, respectively.     

Synthese und Charakterisierung von Metallocen-Chelaten heterocyclischer 1,2-Dithiolate

Synthesis and Characterization of Metallocene Chelates of Heterocyclic 1,2-Dithiolates Synthesis and properties of metalocene dithiolene chelates Cp₂ML with metal(IV) ions (M) of group IVA (Ti, Zr, Hf) and of vanadium with L = dmit (1,3-dithiole-2-thione-4,5-dithiolate), dmt (1,2-dithiole-3-thione-4,5-dithiolate), dmid (1,3-dithiole-2-one-4,5-dithiolate) and dmise (1,3-dithiole-2-selone-4,5-dithiolate) are described. The structures of these compounds were discussed using IR-, UV/VIS-, ¹H-NMR-, ¹³C-NMR- and EPR data. The activation parameters of the chelate ring inversion of titanocene dithiolenes (Cp₂TiL) and the x-ray structure of Cp₂Ti(dmid) are given.     

Synthese und Charakterisierung von Tetralithiumpentaoxoselenat(VI)

Synthesis and Characterization of Tetralithiumpentaoxoselenate(VI) Pure Li₄SeO₅ was prepared by solid state reaction at 500 °C from a mixture of Li₂O and Li₂SeO₄ in silver crucibles. The crystal structure was solved and refined with x‐ray powder methods (profile matching, C2/c, a = 873.3(1), b = 572.5(1), c = 783.6(1) pm, β = 98.29(1)°, R_p = 0.052, R_wp = 0.066). Li₄SeO₅ contains novel SeO₅^4– anions, which form slightly distorted trigonal bipyramids. All ions are coordinated by 5 ligands in the shape of trigonal bipyramidal polyhedra, according to the formula Li₄^[5]Se^[5]O₅^[5]. From the empirical formula and the coordinaton environments, it is clear that this is an order variant of the A^[5]B^[5] structure type, that was found in the system NaCl by global optimisation methods. The crystal structure is consistent with spectroscopic data (IR, Raman, NMR). The ionic conductivity (σ = 3.34 10^–5 Ω^–1 cm^–1 at 340 °C) of the compound was determined with impedance measurements.     

Synthese und thermische Charakterisierung von Ti-Polyferrocen?thern

Ohne Zusammenfassung     

Synthese und Charakterisierung von Metallocen-Chelaten heterocyclischer 1,2-Diselenolate

Synthesis and Characterization of Metallocene Chelates of Heterocyclic 1,2-Diselenolates Synthesis and properties of metallocen diselenolates Cp₂^RML (Cp^R = η⁵-C₅H₄CH₃ (Cp′); η⁵-C₅(CH₃)₄ C₂H₅ (Cp^o)) of titanium(IV) and vanadium(IV) with L = dsit (1,3-dithiole-2-thione-4,5-diselenolate), dsise (1,3-dithiole-2-selone-4,5-diselenolate) dsitse (1,3-thiaselenole-2-selone-4,5-diselenolate) and dsis (1,3-diselenole-2-selone-4,5-diselenolate) are described. The structures of these compounds in solution are discussed using ¹H, ¹³C, ⁷⁷Se NMR and EPR data. Their voltammetric behaviour is investigated in dichloromethane. The activation parameters of the chelate ring inversion of the titanocene diselenolates (Cp₂^RTiL) and the x-ray structures of Cp₂′Ti(dsit), Cp₂^oTi(dsit); Cp₂^oTi(dsise) (2 modifications) and Cp₂^oTi(dsis) are reported.     

Synthese und Charakterisierung von Sulfinato-Nickel(II)-Komplexen

Synthesis and Characterization of Sulfinato-Nickel(II) Complexes Synthesis and properties of sulfinato-nickel(II) complexes of the type L₂Ni(Cl)SO₂R (L₂ = TMED, bipy, phen, DPPE, (PBu₃)₂; R = Ph, p-Tol, Me, NMe₂) are described. The compounds obtained are characterized by means of magnetic measurements, i.r. and reflectance spectra.