Die Herstellung und einige physikalisch-chemische Eigenschaften von Modifikationen des Dipyridin-Dirhodankupfer(II)-Komplexes

The paper deals with the preparation of modifications of Cu(Py)₂(CNS)₂ from aqueous media. The -from was obtained by precipitation of pyridine containing solutions of CuSO₄ with NH₄CNS, while for the -modification crystallisation from solutions was applied that in addition to the above components contained also ammonia. The differences betwwen the modifications are discussed on the basis of their infra-red spectra, their thermograms and their powder-diffractograms. The structural differences are localized in the inner coordination sphere of the central atom. Besides, also the properties of some products of the thermal decomposition of these modifications are reported.

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Herstellung und Eigenschaften einiger hydrocorphinoider Nickel(II)-Komplexe

Preparation and Properties of some Hydrocorphinoid Nickel(II)-Complexes Corphin derivatives synthesized earlier in our laboratory have been used for the preparation of tetrahydro- and hexahydrocorphinoid nickel(II)-complexes containing novel chromophore systems. The UV./VIS. and ¹H- and ¹³C-NMR. spectral data of these complexes were relevant to the structure determination of Factor F430 described in the following paper.     

Ueber Herstellung und einige Eigenschaften von Wolfram- und Chromhydrosolen

Ohne Zusammenfassung     

Herstellung,Kristallstruktur und magnetische Eigenschaften von Bis (1,2-benzochinondiimid)-1,2-benzosemichinondiimidokobalt (II)-tetraphenylborat-pentahydrat

Synthesis, Crystal Structure, and Magnetic Properties of Bis(1,2-benzoquinonediimide)-1,2-benzosemiquinonediimidocobalt (II)-tetraphenylborate-pentahydrate Co (II)-salts catalyze the autoxidation of 1,2-diaminobenzene in slightly alkaline solution. Deeply coloured metal complexes are formed during the reaction suggesting intermediate radical or semiquinonediimide stages of the aromatic ligands. Starting from [Co^II (1,2-diaminobenzene)₃] (ClO₄)₂ two different intermediate complexes can be isolated, the magnetic properties of which point to a high-spin cobalt (II)-complex and a low-spin cobalt (II)-complex with a radical ligand respectively. The X-ray structure determination of the latter complex yielded a square pyramidal arrangement, the Co-N₄-plane distance being only 0.5 Å. The dark blue coloured complex is diamagnetic. Two of the aromatic ligands have the oxidation state of a benzoquinonediimide while the third, coordinated by one amino group only, is pseudosemiquinonoid. Crystals of C₄₂H₄₈BCoN₆O₅ are monoclinic, a = 14.493 (5), b = 18.341 (7), c = 15.492 (5) Å, β = 99.198 (5), space group P2¹/n. D_obs. = 1.290, D_calc. = 1.289 g/cm³ for Z = 4. The structure was solved by Patterson's method and refined by least-squares techniques to R = 0.088 for 2866 of 5014 independent reflexions.     

Struktur,elektrische und dielektrische Eigenschaften der Metall-Chelate von Poly(isophthalohydrazo) und dessen Thiocarbonyl-Homologen

Ohne Zusammenfassung     

Herstellung und Eigenschaften von quart?ren Cellulose-Anionenaustauschern

Ohne Zusammenfassung     

Herstellung und Analyse von SiO-Aufdampfschichten verschiedener optischer Eigenschaften

Ohne ZusammenfassungMit 3 AbbildungenHerrn Prof. Dr.O. Kratky mit herzlichen Glückwüschen zum 60. Geburtstag gewidmet.Zum Teil vorgetragen auf dem Chemikertreffen in Wien am 13. Oktober 1961.     

Darstellung und Eigenschaften von Kupfer(II)-Hypophosphit

Thermal Behaviour of the Mixtures Na₂S? P₄S₁₀ and Na₄Ge₄S₁₀? P₄S₁₀ of the System Na₂S? GeS₂? P₄S₁₀ The mixtures of Na₂S? P₄S₁₀ and Na₄Ge₄S₁₀? P₄S₁₀ were investigated by DTA and DSC. In the system Na₂S? P₄S₁₀ the congruently melting compounds Na₃PS₄ and (NaPS₃)_x and the peritectic phase Na₄P₂S₇ were found. The IR-spectra are given. Glassy, anhydrous and hydrated Na₄Ge₄S_l0 were prepared and thermochemically characterized. The section Na₄Ge₄S₁₀? P₄S₁₀ is not quasibinary, the mixed cage-anion Ge_4?xP_xS₁₀^(4?x)? thus cannot be prepared by heating and annealing mixtures of Na₄Ge₄S₁₀ and P₄S₁₀.     

Die Eigenschaften von Sulfonfluorescein und dessen halogenierten Derivaten als Adsorptionsindicatoren

Ohne Zusammenfassung     

Darstellung,Struktur und Eigenschaften von Kupfer(II)-Carbonat

Synthesis, Structure, and Properties of Cupric Carbonate CuCO₃ can be prepared from azurite, malachite or CuO by reaction with CO₂ using a pressure of 20 kb at a temperature of 500°C. The compound is monoclinic, its spacegroup is Pa? C (Nr. 7); the lattice constants are: a = 6.092, b = 4.493, c = 7.030 Å, β = 101.34°. From the structure determination follows the coordination number 5 with a distorted square pyramid of oxygen around the metal. The IR sepctrum ist explained on the basis of site-symmetry considerations.     

Herstellung und Eigenschaften der Kohlenstoffkationenaustauschermembranen

Ohne Zusammenfassung     

Darstellung und einige Eigenschaften von Kupfer(I)-Kupfer(II)-Selenocyanaten

Preparation and Some Characteristics of Copper(I)-Copper(II) Selenocyanates From the system Cu²⁺-H₂O-en-SeCN-in dependence on the conditions two new complexes have been prepared: Cu₃en₂(SeCN)(CN)₃· H₂O(I) and Cu₃en₂(SeCN)₂(CN)₂· H₂O(II). They were studied by the methods of infra-red and EPR spectra as well as by those of X-ray diffraction. It has been found that Cu₂₊ is coordinated in these complexes with two molecules of ethylene diamine and one molecule water. The anion ligands have a bridging function and coordinate the copper(I). The EPR spectra show that the two complexes exhibit around the atom Cu²⁺ have different ligand field symmetry. For complex (I) it is a typically axial spectrum with two values of the gfactor g⊥? 2.18 and g⊥? 2.05 while complex (II) has an asymmetrical isotropic spectrum with one g-factor value only g⊥? 2.07.     

High-spin Mangan(II)-Phthalocyanine: Darstellung und spektroskopische Eigenschaften von Acidophthalocyaninatomanganat(II)

High Spin Manganese(II) Phthalocyanines: Preparation and Spectroscopical Properties of Acidophthalocyaninatomanganate(II) Acidophthalocyaninatomanaganese(III) is reduced by boranate, thioacetate or hydrogensulfide to yield acidophthalo-cyaninatomanganate(II) ([Mn(X)Pc^2?]^?; X = Cl, Br, NCO, NCS) being isolated as tetra(n-butyl)ammonium salt. In the cyclovoltammogram of [Mn(NCO)Pc^2?]^? the halv-wave potential for the redoxcouple Mn^II/Mn^III is at ?0.13 V, that of the first ring reduction at ?0.99 V. The magnetic moments are indicative of high-spin ⁶A₁ ground states: μ_Mn = 5.84 (NCO), 5.78(Cl), 5.65 (Br), 5.68 μ_B (NCS). A Curie-like temperature dependence of μ_Mn is observed in the region 300–30 K. Below 30 K an increase in μ_Mn occurs due to weak intermolecular ferromagnetic coupling. The ESR spectra confirm the S = 5/2 ground state with a strong g = 6 resonance observed (A_Mn = 80 G) as expected for an axially distorted ligand-field. Besides the typical π-π* transitions of the Pc^2?-ligand several weak bands are observed in the Uv-vis-n.i.r. spectra at ca. 7.5, 9.1, 14.0 and 19.0 kK that are assigned to trip-multiplet transitions. In resonance with the band at 19.0 kK the Mn? X stretching vibration (v(MnX)) is resonance Raman enhanced: X = NCO: 319, Cl: 286, SCN: 238, Br: 202 cm^?1. These vibrational frequencies are confirmed by the f.i.r. spectra. In the case of the thiocyanato-complex probably both forms of bonding of the ambident NCS-ligand are present (v(Mn? NCS): 274 cm^?1). The frequencies of the vibrations of the inner (CN)₈ ring are reduced by up to 20 cm^?1 as compared with those of low spin Mn^II phthalocyanines.     

Herstellung von Europium(II)-bromid-boranat

Zusammenfassung EuBr₂ läßt sich nach der Ammoniumbromidmethode verhältnismäßig leicht herstellen, da das primär gebildete EuBr₃ dabei in EuBr₂ und Brom zerfällt. Das Solvat EuBr₂·2THF wurde isoliert. EuBr₂ reagiert inTHF mit LiBH₄ zu farblosem Europium(II)-bromid-boranat, EuBr(BH₄).

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EuBr₂ can be obtained relatively easily by the ammonium bromide method, as the primarily formed EuBr₃ dissociates into EuBr₂ and bromine. The solvate EuBr₂·2THF was isolated. EuBr₂ reacts inTHF with LiBH₄ forming colourless Europium (II)-bromide-boranate EuBr(BH₄).

     

Osmium(II)-Phthalocyanine: Darstellung und Eigenschaften von Di(acido)phthalocyaninatoosmaten(II)

Osmium(II) Phthalocyanines: Preparation and Properties of Di(acido)phthalocyaninatoosmates(II) “H[Os(X)₂Pc^2?]” (X = Br, Cl) reacts in basic medium or in the melt with (ⁿBu₄N)X forming less stable, diamagnetic, darkgreen (ⁿBu₄N)₂[Os(X)₂Pc^2?]. Similar dicyano and diimidazolido(Im) complexes are formed by the reaction of “H[Os(Cl)₂Pc^2?]” with excess ligand in the presence of [BH₄]^?. The cyclic voltammograms show up to three quasireversible redoxprocesses: E_1/2(I) = 0.13 V (X = CN), ?0.03 V (Im), ?0.13 V (Br) resp. ?0.18 V (Cl) is metal directed (Os^II/III), E_1/2(II) = 0.69 V (Cl), 0.71 V (Br), 0.83 V (CN), 1.02 V (Im) is ligand directed (Pc^2?/?) and E_1/2(III) = 1.17 V (Cl) resp. 1.23 V (Br) is again metal directed (Os^III/IV). Between the typical “B” (～16.2 kK) and “Q” (～29.4 kK), “N regions” (～34.1 kK) up to seven strong “extra bands” of the phthalocyanine dianion (Pc^2?) are observed in the uv-vis spectrum. Within the row CN > Im > Br > Cl, most of the bands are shifted slightly, the “extra bands” considerably more to lower energy in correlation with E_1/2(I). The vibrational spectra are typical for the Pc^2? ligand with D_4h symmetry. M.i.r. bands at 514, 909, 1 173 and 1 331 cm^?1 are specific for hexa-coordinated low spin Os^II phthalocyanines. In the resonance Raman (r.r.) spectra polarized, depolarized or anomalously polarized deformation and stretching vibrations of the Pc^2? ligand will be selectively enhanced, if the excitation frequency coincides with “extra bands”. With excitation at ～19.5 kK the intensity of the symmetrical Os? X stretching vibration at 295 cm^?1 (X = Cl), 252 cm^?1 (X = Im) and 181 cm^?1 (X = Br) is r.r. enhanced, too. The asymmetrical Os? X stretching vibration is observed in the f.i.r. spectrum at 345 cm^?1 (X = CN), 274 cm^?1 (X = Cl), 261 cm^?1 (X = Im) and 200 cm^?1 (X = Br).