Search results for "Thiolates"

showing 3 items of 3 documents

Palladium-catalyzed heteroaryl thioethers synthesis overcoming palladium dithiolate resting states inertness: Practical road to sulfones and NH-sulfo…

2018

International audience; We provide efficient synthetic access to heteroaryl sulfones in two-steps using a simple palladium-1,1'-bis [(diphenyl)phosphanyl]ferrocene catalyst to form in high yields variously functionalized heteroaromatic thioethers. Pyridinyl-containing substrates can be subsequently selectively oxidized into sulfones and NH-sulfoximines by using very mild oxidation conditions with a high functional group tolerance. In the palladium catalyzed C-S coupling of heteroaromatic thiols, reactivity limitation is attached with electron-deficient thiols. We show that this limitation can be resolved by the successful use of 2-bromoheteroarenes in the C-S coupling. We established herein…

bond formationarenessulfideschemistry.chemical_element010402 general chemistry01 natural sciencesCatalysisefficientCatalysischemistry.chemical_compounds-arylation[CHIM]Chemical SciencesReactivity (chemistry)SulfonesResting statethiols[PHYS]Physics [physics]010405 organic chemistryProcess Chemistry and TechnologyGeneral Chemistryindolesacid saltsCombinatorial chemistry0104 chemical sciencesThiolatesC-S couplingchemistryFerroceneNH-sulfoximinesReagentElectrophileFunctional groupH functionalizationdirecting groupPalladiumStoichiometryPalladiumCatalysis Communications
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Synthesis and thermal decomposition studies of homo- and heteroleptic tin(iv) thiolates and dithiocarbamates: molecular precursors for tin sulfides

2002

The syntheses and X-ray structures of novel heteroleptic thiolate/dithiocarbamate derivatives (Et2NCS2)2(RS)2Sn (R = Cy, CH2CF3) have been examined and their thermal decompositions compared with those of selected tin(II) and tin(IV) dithiocarbamates. The heteroleptic species decompose to SnS by initial elimination of RSSR to afford (Et2NCS2)2Sn and subsequent loss of [Et2NC(S)]2S. In contrast, (Et2NCS2)4Sn decomposes via [(Et2NCS2)2SnS]2, whose structure has been determined, and finally to SnS2 by sequential elimination of [Et2NC(S)]2S. The two families of compounds, (R2NCS2)4Sn and (Et2NCS2)2(RS)2Sn, thus provide single-source materials for bulk SnS2 and SnS, respectively, by virtue of the…

chemistry.chemical_classificationtin thiolatesMössbauer spectroscopyChemistryInorganic chemistryThermal decompositionSolid-statechemistry.chemical_elementGeneral ChemistryCrystal structureChemical vapor depositionMedicinal chemistryDecompositionchemical vapor depositionSettore CHIM/03 - Chimica Generale E InorganicaTinDithiocarbamateX-ray crystallographyJournal of the Chemical Society, Dalton Transactions
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Deposition of tin sulfide thin films from tin(iv) thiolate precursors

2001

AACVD (aerosol-assisted chemical vapour deposition) using (PhS)(4)Sn as precursor leads to the deposition of Sn3O4 in the absence of H2S and tin sulfides when H2S is used as co-reactant. At 450 degreesC the film deposited consists of mainly SnS2 while at 500 degreesC SnS is the dominant component. The mechanism of decomposition of (PhS)(4)Sn is discussed and the structure of the precursor presented.

tin sulfidestin thiolatesMössbauer spectroscopybusiness.industryChemistryInorganic chemistrychemistry.chemical_elementGeneral ChemistryChemical vapor depositionDecompositionSemiconductorchemical vapour depositionSettore CHIM/03 - Chimica Generale E InorganicaX-ray crystallographyMaterials ChemistryThin filmbusinessElectronic band structureTinDeposition (chemistry)thermal decompositionJournal of Materials Chemistry
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