Über Chalkogenolate. 183. Bis(methylthiothiocarbonyl)sulfane

On Chalcogenolates. 183. Bis (methylthiocarbonyl) sulfanes The hitherto not known title compounds (CH₃S? CS? )₂S_x, where x = 1–4, have been synthesized by different methods. The sulfanes have been characterized by means of electron absorption, infrared, nuclear magnetic resonance, and mass spectra.     

Über Chalkogenolate. 182. Bis(methoxythiocarbonyl) sulfane

On Chalcogenolates. 182. Bis(methoxythiocarbonyl)sulfanes The title compounds (CH₃O? CS? )₂S_x, where x = 1–4, have been prepared by different procedures. Their electron absorption, infrared, nuclear magnetic resonance, and mass spectra are reported.     

Über Chalkogenolate. 181 [1]. Thiocarbamoyl-methylsulfane

On Chalcogenolates. 181. Thiocarbamoyl Methyl Sulfanes The thiocarbamoyl methyl sulfanes H₂N? CS? S_x? CH₃? NH? CS? S_x? CH₃, and (CH₃)₂N? CS? S_x? CH₃ with x = 1 and 2 have been prepared by known procedures (for x = 1) and by reaction of the corresponding dithiocarbamate with the S-methylester of methanethiosulfonic acid CH₃? SO₂? SCH₃ (for x = 2). The compounds have been studied by means of diverse spectroscopic methods.     

Über die Darstellung der Bis(triphenylsilyl)-sulfane (C6H5)3Si?Sx?Si(C6H5)3 (x = 3, 4) und die Kristallstruktur von (C6H5)3Si?S4?Si(C6H5)3

On the Preparation of Bis(triphenylsilyl)sulfanes (C₆H₅)₃Si? S_x? Si(C₆H₅)₃ (x = 3, 4) and the Crystal Structure of (C₆H₅)₃Si? S₄? Si(C₆H₅)₃ The preparation of the bis(triphenylsilyl)sulfanes Ph₃Si? S_x? SiPh₃ (x = 3, 4) from Ph₃SiSNa and SCl₂ resp. S₂Cl₂ is reported. They are characterized by vibrational, NMR and UV-VIS spectroscopic measurements. Ph₃Si? S₄? SiPh₃ crystallizes in space group P1 with a = 943.6(6) pm, b = 945.7(5) pm, c = 1 881.7(12) pm, α = 82.11(5)°, β = 78.95(5)°, γ = 83.15(5)° and Z = 2.     

Beiträge zur Chemie der Silicium-Schwefel-Verbindungen. 50 [1] Bis(triorganoxysilyl)polysulfide und die Struktur des Bis(tri-t-butoxysilyl)disulfids

Contributions to the Chemistry of Silicon-Sulfur Compounds. 50. Bis(triorganoxysilyl)-polysulfides and the Structure of Bis(tri-tert-butoxysilyl)disulfide Disilylated polysulfides (RO)₃SiS_nSi(OR)₃, R = i-Pr, tert-Bu, 2,6-Me₂C₆H₃, n = 2–5, were obtained by reaction of (RO)₃SiSNa with I₂ or S_nCl₂, respectively. The reaction of [(t-BuO)₃Si]₂S₂ with Ph₃SiH yielded the mixed sulfide (t-BuO)₃SiSSiPh₃ and with Ph₃P or Bu₃P, by extrusion of one sulfur atom, the [(t-BuO)₃Si]₂S. The X-ray crystal structure of [(t-BuO)₃Si]₂S₂ was determined. The S? S bond length is 209,2 pm, Si? S 213,2 pm. The mean value of the Si? S? S angle is 100,7°, and the torsion angle Si? S? S? Si ?127,6°.     

Über Chalkogenolate. 185. Bis(N,N-dimethylthiocarbamoyl)sulfane

On Chalcogenolates. 185. Bis(N, N-dimethylthiocarbamoyl)sulfanes The title compounds have been synthesized by partial known methods. The sulfanes have been characterized by means of electron absorption, infrared, nuclear magnetic resonance, and mass spectra.     

Über Chalkogenolate. 180. Methoxythiocarbonyl-methylsulfane CH3O?CS?Sx?CH3 mit x = 1, 2 und Methylthiothiocarbonyl-methylsufane CH3S?CS?Sx?CH3 mit x = 1, 2

On Chalcogenolates. 180. Methoxythiocarbonyl Methyl Sulfanes CH₃O? CS? S_x? CH₃ with x = 1, 2 and Methylthiothiocarbonyl Methyl Sulfanes CH₃S? CS? S_x? CH₃ with x = 1, 2 The monosulfanes have been prepared by known procedures. For the first time the disulfanes have been synthesized by reaction of K[S₂C? OCH₃] and K[S₂C? SCH₃] with the S-methyl ester of methanethiosulfonic acid CH₃? SO₂? SCH₃. The sulfanes CH₃O? CS? S_x? CH₃ and CH₃S? CS? S_x? CH₃, where x = 1 and 2, have been characterized by means of electron absorption, infrared, nuclear magnetic resonance, and mass spectra.     

Über Chalkogenolate. 197. Untersuchungen über Polythiocuprate(I) [Cu(Sx)]− 1. Eigenschaften und Reaktionen von Ammoniumtetrathiocuprat(I)

On Chalcogenolates. 197. Studies on Polythiocuprates(I) [Cu(S_x)]^?. 1. Properties and Reactions of Ammonium Tetrathiocuprate(I) The properties of NH₄[Cu(S₄)] have been studied. In watery alkaline media it decomposes into CuS and S; in the presence of carbon disulfide CuS, S_x^2?, and CS₃^2? besides CS₄^2? and S₂CO^2? are formed. The compound (NH₄)₂[Cu₂CS₇], described in literature, does not exist. In dimethylformamide dissolved NH₄[Cu(S₄)] decomposes via the radical anion S₃^?. NH₄[Cu(S₄)] reacts with n-butyl chloride to yield the substituted sulfanes (C₄H₉)₂S_x with x = 1, 2, and 3.     

Über Chalkogenolate. 198. Untersuchungen über Polythiocuprate (I) [Cu(Sx)]− 2. Hydrazinium- und Ethylendiammoniumpolythiocuprate(I)

On Chalcogenolates. 198. Studies on Polythiocuprates(I) [Cu(S_x)]^?. 2. Hydrazinium and Ethylenediammonium Polythiocuprates(I) The red polythiocuprates(I) 1–5 (formulae see ?Inhaltsübersicht”?) have been prepared by reaction of hydrazinium or ethylenediammonium polysulfides with copper(II) salts, dissolved in water, under variable conditions. Their properties are described. In aqueous alkaline media 1–5 decompose into CuS and S; in the presence of carbon disulfide CuS, S_x^2?, and CS₃^2? besides CS₄^2? and S₂CO^2? are formed. The existence of the discreet ion [Cu₂CS₇]^2?, described in literature, was not confirmed. The polythiocuprates(I) 1–5 , dissolved im dimethylformamide, decompose via the radical anion S₃^?. The decomposition of S₃^? has been studied kinetically by means of compound 5 . The half-life of decay of S₃^? is τ_1/2 = 71.5 h at 20°C. The pentathiocuprate(I) 3 reacts with n-butyl chloride to produce the substituted sulfanes (C₄H₉)₂S_x′ where x = 1, 2 and 3.     

S-Transferreaktionen mit Bis(imidazolo)sulfan und silylierten Schwefel-Stickstoffverbindungen: Herstellung funktionalisierter Thioschwefeldiimide

S-Transfer Reactions with Bis(imidazolo)sulfane and Silylated Sulfur-Nitrogen Compounds: Synthesis of Functionally Thiosulfurdiimides Sulfinimideamides Rs(NSiMe₃)N(SiMe₃)₂ ( 1 ) (R = t-Bu or Ph) react with bis(imidazolo)sulfane via S^IV → ^II-? redox transimination”? yielding thiosulfurdiimides RSN ? S ? NSiMe₃ ( 2 ), which reacts with further bis(imidazolo)sulfane to give dithiosulfur-dimides RSN ? NSR ( 3 ). Solvolysis of 2 with MeOH gives the corresponding NH-compounds RSN ? S ? NH ( 4 ).     

Zum nukleophilen Abbau von Tris(pentasulfido)platinat(IV), [Pt(S5)3]2−, und Bis(pentasulfido)platinat(II),[Pt(S5)2]2−

On the Nucleophilic Degradation of Tris(pentasulfido)platinum(IV), [Pt(S₅)₃]^2?, and Bis(pentasulfido)platinum(II), [Pt(S₅)₂]^2? The behaviour of [Pt(S₅)₃]^2?, ( I ), towards sulfite, arsenite, sulfide, hydroxide, and triphenylphosphine has been studied qualitatively and quantitatively. With stoichiometric amounts of nucleophile one ring is degraded; the reaction product [Pt(S₅)₂]^2?, ( II ), can be isolated. With excess of nucleophile all sulfur atoms are taken off from the platinum; with triphenylphosphine, however, (PPh₃)₂PtS₄, ( III ), is formed. A mechanistic interpretation of the course of the reaction is given and supported by kinetic studies.     

Synthese und Eigenschaften von Bis(dialkylamino)-methylarsinen

Synthesis and Properties of Bis(dialkylamino)methylarsines The reactions of secondary amines with CH₃AsJ₂ lead to the formation of Bis(dialkylamino)methylarsines. Ten arsines have been prepared by this method and are described. IR and ¹H-NMR and mass spectral data are presented for these compounds and discussed. Acid molecules cleave the As? N bond. The reactions with halogen hydrides, water, alkoholes, thioles and amines are described.     

Synthese und Eigenschaften von Bis(Dimethylarsino)-aminen

Synthesis and Properties of Bis(dimethylarsino) Amines Primary amines react with cacodyl halides (CH₃)₂AsX (X = Cl, J) under formation of Bis(dimethylarsino)amines RN[As(CH₃)₂]₂. Nine amines were prepared. The compounds were characterized by IR, ¹H-nmr and mass-spectroscopy. In the reactions with acid molecules cleavage of the As? N bond was observed. Formation of amine RNH₂ or ammoniumsalt (RNH₃)X and cacodyl derivates took place in all cases. The reactions of the arsinoamines with some carbonyles are reported.     

Bis(methoxo)titan(IV)-dichlorid

Bis(methoxo)titanium(IV) Dichloride [CH₃O]₂TiCl₂ has been prepared by reaction between TiCl₄ and methanol. It has been characterized by different methods.     

Bis(triphenylphosphan)Palladium-Komplexe mit Schwefeloxid-Liganden

Bis(triphenylphosphine)Palladium Complexes with Sulfur Oxide Ligands New examples in the series of sulfur oxide complexes of the type (PPh₃)₂Pd(S_nO_m) (n = 1,2; m 1–4) were found by the synthesis of (PPh₃)₂Pd(SO) and (PPh₃)₂Pd(S₂O₃. The SO complex is obtained by the reaction of Pd(PPh₃)₄ or (PPh₃)₂Pd(RCCR) (R=COOMe) and thiirane-S-oxide. The thiosulfato complex (PPh₃)₂Pd(S₂O₃) is formed from (PPh₃)₂Pd(SO) and SO₂ or, alternatively, from (PPh₃)₃Pd(SO₂) and C₂H₄SO. Both SO und SO₂ complexes can be oxidized to the corresponding sulfato compound (PPh₃)₂)Pd(SO₄). The SO complex is used as a SO-source for the formation of 3,4-dimethyldihydrothiophene-S-oxide from 2,3-dimethyl-1,3-butadiene.     

Heteroleptische Diorganylzink-Verbindungen mit einem Bis(trimethylsilyl)phosphanido-Substituenten

Heteroleptic Diorganylzinc Compounds with a Bis(trimethylsilyl)phosphido Substituent Dialkylzinc ZnR₂ (Me, Et, iso-Pr, nBu, tBu, CH₂SiMe₃) reacts with one equivalent of bis(trimethylsilyl)-phosphine in carbohydrates to the heteroleptic compounds RZnP(SiMe₃)₂; dependent from the steric demand of the alkyl group R the derivatives are dimeric or trimeric in solution as well as in the solid state. Monomeric bis(trimethylsilyl)phosphido-tris(trimethylsilyl)methylzinc yields from the reaction of lithium tris(trimethylsilyl)methanide and lithium bis(trimethylsilyl)phosphide with zinc(II) chloride. Bis(trimethylsilyl)phosphido-methylzinc crystallizes in the orthorhombic space group P2₁2₁2₁ with {a = 1 007.6(1); b = 1 872.3(3); c = 2 231.0(4) pm; Z = 4} as a trimeric molecule with a central cyclic Zn₃P₃ moiety in the twist-boat conformation. Bis(trimethylsilyl)phosphido-n-butylzinc, that crystallizes in the orthorombic space group Pben with {a = 1 261.7(2); b = 2 253.0(4); c = 1 798.9(2) pm; Z = 4}, shows a simular central Zn₃P₃ fragment. The sterically more demanding trimethylsilylmethyl substituent leads to the formation of a dimeric molecule of bis(trimethylsilyl)phosphido-trimethylsilylmethylzinc {monoklin, P2₁/c; a = 907.2(4); b = 2 079.8(8), c = 1 070,2(3) pm; β = 103,48(1)°; Z = 2}. Bis(trimethylsilyl)phosphido-iso-propylzinc shows in solution a temperature-dependent equilibrium of the dimeric and trimeric species; the crystalline state contains a 1:1 mixture of these two oligomers {orthorhombisch; Pbca; a = 1 859.0(3); b = 2 470.9(2); c = 3 450.7(3) pm; Z = 8}. The Zn? P bond lengths vary in a narrow range around 239 pm, the Zn? C distances were found between 196 and 203 pm.     

Über Chalkogenolate. 166. Umsetzungen von Hydrazin mit Kohlenstoffdisulfid 5. Versuche zur Darstellung von Estern der 1,2-Hydrazin-bis(dithiocarbonsäuren) [1]

On Chalcogenolates. 166. Reactions of Hydrazine with Carbon Disulfide. 5. Attempts to Prepare Esters of 1,2-Hydrazine-bis(dithiocarboxylic Acids) Possible reactions to synthesize esters of 1,2-hydrazine-bis(dithiocarboxylic acids) are described:

• 1 The reaction of K₂[S₂C? NH? NH? CS₂] with H₃CI preponderantly forms 2,5-dimethylthio-1,3,4-thiadiazole Ia and a small quantity of bis(methylthio)-ketazine II (formula see ?Inhaltsübersicht”?).
• 2 Hydrazine reacts with Cl? CS? SC₂H₅ to give exclusively compound Ib
• 3 The reaction between K₂[S₂C=N? NH? CS? SCH₃] and H₃CI yields 94% compound Ia and 6% compound II
• 4 K₂[S₂C=N? NH? CS? SCH₃] reacts with C₆H₅? CH₂Br to form a mixture containing 25% dibenzyl sulfide, 15% 2,5-dibenzylthio-1,3,4-thiadiazole I e, and 60% 2-methylthio-5-benzylthio-1,3,4-thiadiazole I d

The compounds Ia , Id and II have been characterized by means of diverse spectroscopic methods. The mechanism of the formation of compounds I has been discussed.     

Bis(N,N‐di­methyl­thio­carbamoyl­thio)­acetic acid

Bis(N,N‐di­methyl­thio­carbamoyl­thio)­acetic acid, [(CH₃)₂NC(=S)S]₂CHC(=O)OH or C₈H₁₄N₂O₂S₄, exists as a centrosymmetric hydrogen‐bonded dimer [O?O 2.661 (3) Å].     

Preparation and Characterisation of Bis (η5-Cyclopentadienyl) N,N-Disubstituted Dithiocarbamato Chloro Oxotungsten (VI) Complexes

Bis (η⁵-cyclopentaienyl) N,N-disubstituted dithiocarbamato chloro oxotungsten (VI) complexes of the type η⁵-Cp₂WO(S₂CNR₂)Cl and η⁵-Cp₂WO(S₂CNRR')Cl (where R=Me, Et and i-Pr and R'=Cyhx) have been prepared by the reaction of bis (η⁵-cyclopentadienyl) oxotungsten (VI) dichloride with sodium salts of dithiocarbamic acids in refluxing tetrahydrofuran. Infrared spectral studies demonstrate that in these complexes dithiocarbamate ligands are bidentate. Therefore, tungsten (VI) atom may be assigned a coordination number 6 in all these complexes. Elemental analyses of these compounds have also been carried out. Electronic spectra have been recorded for all the six complexes.     

Bis[bis(trimethylsilyl)amino]sulfan 1. Darstellung und Charakterisierung

Inhaltsübersicht. Die Titelverbindung[(CH₃)₃Si]₂N–S–N[Si(CH₃)₃]₂ wurde durch Reaktion von Lithium-bis(trimethylsilyl)arnid mit Schwefeldichlorid hergestellt. Elektronenabsorptions-, Infrarot-, Kernresonanz- (¹H, ¹³C, ²⁹Si, ¹⁵N) und Massenspektren werden mitgeteilt. Die Reaktivität der Verbindung wurde untersucht. Bis[bis (trimethylsilyl) amino] sulfane. 1. Synthesis and Characterization Abstract, The title compound [(CH₃)₃Si]₂N–S–N[Si(CH₃)₃]₂ has been prepared by reaction of lithium bis(trimethylsilyl)amide with sulfur dichloride. Electron absorption, infrared, nuclear magnetic resonance (¹H, ¹³C, ²⁹Si, ¹⁶N), and mass spectra are given. The reactivity of the compound has been studied. Im Zusammenhang mit unseren Untersuchungen [1–3] über S-Bis(trimethyl-eilyl)aminoester von Dithiocarbamidsäuren RR′N–CS–S–N[Si(CH₃)₃]₂ haben wir uns mit dem Bis[bis(trimethylsilyl)amino]sulfan [(CH₃)₃Si]₂N-S-N[Si(CH₃)₃]₂ befaßt. Diese Verbindung wurde erstmals 1962 von Wannagat u. Kückertz [4] hergestellt und kurz beschrieben. Wolmershäuser u. Mitarb. [5] teilten einige wenige spektroskopische Daten mit; vgl. auch [6, 7].