Aromatic compounds reductive silylations

We know that reduction potentials of arylsilanes are less negative than those of the corresponding aromatic compounds without silyl substituents (Sect. 2.2.1). The effect of silyl groups to facilitate the electron transfer to the neigbouring aromatic group is explained in terms of p interaction. For example, half wave reduction potentials of naphthylsilanes are less negative than that of... 

Polytrimethylsilylated piperidines have been obtained through the reductive silylation of quinoline (Section III.B.2.d). Among these compounds are SMA derivatives that are readily oxidized in the presence of air and hydrolyzed into pyridine derivatives. Trimethylsilyl groups on the non-aromatic ring were found to be in an all-fraws relationship.179... 

Closely related to the Birch reduction, benzene, and other aromatic compounds afforded reduction-silylation products (equation 10). Electron-transfer reactions of bis(phenylethynyl)dimethylsilane gives 2,5-dianion of 3,4-diphenylsilole that is a useful intermediate to variously substituted siloles (equation 11). ... 

HydrosilyUitwn The reductive silylation of aromatic carbonyl compounds and esters is catalyzed by (CgFj)3B at room temperature (9 examples, 80-96%). Aldehydes react faster. 

The synthesis of enantiomerically pure (S)-3-butyn-2-ol [(S)-24j was achieved via CPCR-catalyzed reduction by introducing a silyl group with an aromatic substituent into the substrate (compound 23c) [41]. 

Nitro compounds are versatile synthetic intermediates which have found widespread utility in industrial applications. Aromatic nitro compounds are the usual starting materials for commercial applications, but aliphatic compounds exhibit a greater diversity of chemical behavior under reducing conditions. " Nitroso compounds, hydroxylamines, oximes, amines, nitrones, ketones and silyl nitronates are frequently encountered during the reduction of nitro compounds. Several specialized reviews have appeared which highlight the versatility of the nitro group in organic chemistry. ... 

Aromatic nitro-compounds can be made to condense with silyl-enol-ethers using tris(dimethylamino) sulfur (trimethylsilyl)difluoride (TASF) a non-aromatic nitronate intermediate is aromatised by reaction with bromine, without isolation, to provide a 2-(orf/to-nitroaryl)-ketone and thence an indole after nitro group reduction. ... 

Trimethylsilyl [ C]cyanide is conveniently accessible from trimethylsilyl chloride, Na CN and Nal in the presence of lutidine or pyridine ". In carbon-14 synthesis it is normally generated in situ and used immediately in subsequent Lewis acid catalyzed chemical transformations. It is useful for some reactions in which alkah metal [ " C]cyanides normally fail, such as cyanide addition to acetals and aromatic and heteroaromatic aldehydes and ketones. Examples include the Znl2-catalyzed addition of TMS " CN to 2-furaldehyde followed by hydride reduction of the resultant silylated cyanohydrin to the aminoalcohol 96 " and the SnCLj-catalyzed formation of D-[l- " C]allonitrile 98, obtained from reaction of TMS " CN to the 0-acetylated hemiacetal 97 (Figure 7.26). Subsequent addition of H2Se to the nitrile group, cyclocondensation of the intermediate selenoamide in situ with ethyl bromopymvate and deprotection yielded 99, precursor to [2- " C]CI-935, a compound with... 

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