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Titanium(IV)chloride and bromide react with zinc dialkyls forming the corresponding titanium trihalides. In detail the preparation and charakterisation of methyltitanium trichloride, methyltitanium tribromide, phenyltitanium trichloride and of complexes of proypl-, pentyl- and phenyltitanium trichloride are described. Furthermore some considerations are made on the stabilities of organotitanium compounds. 相似文献
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tPreparation and Characterization of Lithiumhydrogenphthalocyanine Lithiumhydrogenphthalocyanine is obtained by the thermal decomposition of tetraalkylammoniumlithiumphthalocyanines as monoclinic blue needles (a = 19.081(9), b = 4,996(3), c = 14.437(7) Å; β = 119.64(4)° (from powder diffraction data)). The properties, IR and UV-VIS spectra are discussed. 相似文献
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Contributions to the Chemistry of Transition Metal Alkyl Compounds. XVIII. On the Preparation and Properties of Tetrabenzyl Vanadium and Benzyl Tantalum Chlorides Pure tetrabenzyl vanadium was isolated and characterized by elementary analyses, EPR and 1H-NMR spectra, by hydrolysis and thermal decomposition. — Experiments for the preparation of tetra or pentabenzyl compounds of niobium and tantalum failed, but we could prepare C6H5CH2TaCl4, (C6H5CH2)2TaCl3, and (C6H5CH2)3TaCl2, the last two in form of bipyridyl complexes. 相似文献
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Contributions to the Chemistry of Transition Metal Alkyl Compounds. 63. Preparation and Crystal Structure of Tetramethyltitanium Tetrahydrofuran Me4Ti · 2THF 1 dissoziates partially in n-pentane. The formed Me4Ti · THF 2 could be isolated. According to X-ray structure determination the molecules of 2 have a trigonalbipyramidal shape with the THF molecule in axial position. 相似文献
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Contributions to the Chemistry of Transition Metal Alkyl Compounds. XLI. Preparation and Thermolysis Products of Methyl Titanium Halides (CH3)nTiX4 ? n derivatives (X = Cl, Br, I) can be prepared by comproportionation reactions of tetramethyl titanium with titanium tetrahalides at deep temperature. Furthermore, the methyl titanium iodides are formed from tetramethyl titanium and iodine. Thermolysis of CH3TiX3 derivatives yields titanium(III) halides. At decomposition of the (CH3)2TiX2 compounds in ether solution titanium(II) halides are obtained in a fine-distributed, very reactive form. 相似文献
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Preparation and Spectroscopic Characterization of Carboxylatododecaborates The tetrabutylammonium salt (TBA)2[B12H12]2? reacts with formic, acetic, cyanoacetic, phenylacetic, propionic, butyric, and thioacetic acid at temperatures between 80 and 150°C forming the carboxylatododecaborates [(RC(O)O)n? B12H12? n]2?, n = 1, 2, [CH3C(O)S? B12H11]2?. The isolation of the pure compounds is achieved by ion exchange chromatography on diethylaminoethyl cellulose. In case of the dicarboxylatododecaborates beside the 1,7-isomer predominantly the 1,2-isomer, while 1,2-[(OH)C6H5CH2C(O)O? B12H10]2? is formed exclusively. The alcaline hydrolysis of [RC(O)O? B12H11]2? and 1,2-[(OH)C6H5CH2C(O)O? B12H10]2? results in [(OH)? B12H11]2? and 1,2-[(OH)2? B12H10]2?. All compounds are characterized by their 11B-nmr, 13C-nmr and IR spectra. The 11B-nmr signals are assigned by a sheme allowing to establish expected spectra. 相似文献
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Preparation and Characterization of Calcium Hydrogen Sulfate CaSO4 · H2SO4 was identified as calcium hydrogen sulfate whereas CaSO4 · 3 H2SO4 is an adduct of CaSO4 with H2SO4. Depending on the excessive amount of H2SO4 both compounds exist side by side up to a temperature of 343 K, whereas above this temperature only Ca(HSO4)2 is stable. The DTA curve of Ca(HSO4)2 shows two maxima at 488 K and 523 K, according to the separation of H2O under formation of pyrosulfate and decomposition of this compound under elimination of SO3. In comparison with other hydrogen sulfates Ca(HSO4)2 shows a considerable increased O? H distances. The d-values of Ca(HSO4)2 are calculated and represented. 相似文献
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Contributions to the Chemistry of Transition Metal Alkyl Compounds. XXIV. Preparation and Properties of Tetrabenzyl Molybdenum and Tetrabenzyl Uranium Tetrabenzyl molybdenum, (C6H5CH2)4Mo, can be obtained by the reaction of MoCl4 · 2 THF with dibenzyl magnesium. The compound forms darkbrown crystals, which are stable at room temperature. The analogous reaction of UCl4 · 3 THF with dibenzyl magnesium yields a reddish brown complex of tetrabenzyl uranium of the formula (C6H5CH2)4U · MgCl2. The synthesized compounds are characterized more in detail. 相似文献
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Contributions to the Chemistry of Transition Metal Alkyl Compounds. XXVII. Preparation of Titanium Acetates from Tetramethyl and Tetrabenzyl Titanium (CH3)4Ti reacts with CH3COOH at deep temperature to the colourless Ti(OCOCH3)4. Using ClCH2COOH slight violet Ti(OCOCH2Cl)4 is formed containing small amounts of reduction products. A complete reduction occurs in the analogous reaction with CF3COOH yielding dark green Ti(OCOCF3)3. From (C6H5CH2) 4 Ti and CH3COOH a green titanium(III,IV) acetat of the formula 4 Ti(OCOCH3) · Ti(OCOCH3)4 was obtained. – The isolated titanium acetates were characterized by elementary analyses, magnetic moments and i.r. spectra. 相似文献
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Contributions to the Chemistry of Transition Metal Alkyl Compounds. 62. Preparation and NMR-spectroscopic Characterization of Tetramethyltitanium Complexes Complexes of tetramethyltitanium with THF and oxygen, nitrogen and phosphorous containing chelating ligands were synthesized and characterized by low temperature n.m.r. spectroscopy. The obtained complexes show a dynamic behaviour in solutions. The results of semiempirical MO calculations favour octahedral and not a trigonal prismatic configuration of the complexes. 相似文献