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A-Silyl complexes

Basically the same methods known from the synthesis of classical metal-silyl complexes can also be applied to the preparation of low valent Si compounds. The procedures given here are summarized with the focus on silylene complexes These are a) reactions of appropriate metal anions with halosilanes, which are the most important methods for the formation of M-Si bonds. Alternatively, silyl... [Pg.10]

Structural analogues of the /]4-vinylketene E were isolated by Wulff, Rudler and Moser [15]. The enaminoketene complex 11 was obtained from an intramolecular reaction of the chromium pentacarbonyl carbene complex 10. The silyl vinylketene 13 was isolated from the reaction of the methoxy(phenyl)-carbene chromium complex 1 and a silyl-substituted phenylacetylene 12, and -in contrast to alkene carbene complex 7 - gave the benzannulation product 14 after heating to 165 °C in acetonitrile (Scheme 6). The last step of the benzannulation reaction is the tautomerisation of the /]4-cyclohexadienone F to afford the phenol product G. The existence of such an intermediate and its capacity to undergo a subsequent step was validated by Wulff, who synthesised an... [Pg.127]

A plausible mechanism proposed for this reaction involves migratory insertion of an olefin into the Pd-Si bond of a paUadium-silyl intermediate I followed by migratory insertion of the pendant olefin into the resulting Pd-C bond of II forming palladium-alkyl intermediate III. Reaction of Iff with hydrosilane releases the carbocy-cle to regenerate the palladium-silyl complex I (Scheme 3-21) [61]. [Pg.86]

Trimethylsilyl enol ethers can also be prepared by 1,4-reduction of enones using silanes as reductants. Several effective catalysts have been found,38 of which the most versatile appears to be a Pt complex of divinyltetramethyldisiloxane.39 This catalyst gives good yields of substituted silyl enol ethers (e.g., Scheme 1.2, Entry 7). [Pg.16]

Oxidative addition of a silyl-protected 4-(bromomethyl)phenol precursor to (tme-da)Pd(II)Me2 (tmeda = tetramethylethylenediamine), followed by ethane reductive elimination, resulted in formation of the benzylic complex 16 (Scheme 3.10). Exchange of tmeda for a diphosphine ligand (which is better suited for stabilizing the ultimate Pd(0) QM complex), followed by removal of the protecting silyl group with fluoride anion, resulted in the expected p-QM Pd(0) complex, 17, via intermediacy of the zwitterionic Pd(II) benzyl complex. In this way a stable complex of p-BHT-QM, 17b, the very important metabolite of the widely used food antioxidant BHT20 (BHT = butylated hydroxytoluene) was prepared. Similarly, a Pd(0) complex of the elusive, simplest /)-QM, 17a, was obtained (Scheme 3.10). [Pg.75]

The Ir1 silyl complex Ir(PMe3)2(CO)2(SiMe2Ph), (313), is formed by reaction Scheme 29 and is characterized by X-ray crystallography.507 This result shows that metalation of silyl ligands can be a facile, reversible process. [Pg.204]

Complex (dippe = 1,2-bis(diisopropylphosphino)ethane)Pd(SiH2Ph)2 is a very rare example164-168 of an isolated Pd11 czj-bis(silyl) complex.169... [Pg.566]

The preparation of various platinum-silyl complexes, including a platinum(II), platinum(IV), and mixed-valence platinum(II)-(IV) species, has been described.59 The treatment of one equivalent of 1,2-disilylbenzene with [Pt(PEt3)3] in toluene solution at 0°C affords [Pt(C6H4Si2H4)-(PEt3)2] (25) as a white powder the use of excess 1,2-disilylbenzene in the reaction leads to the formation of various platinum(IV) derivatives. [Pg.690]

These new silyl complexes are monomeric in benzene solution, but are dimeric in the solid state. The crystal structure of the samarium analogue (Figure 1) shows that dimers form via intermolecular Sm-CH3-Si interactions. The Sm-Si distance, 3.052 (8) A, is to our knowledge the longest metal-silicon distance known. As with other complexes that display Ln-CH3-Si interactions in the solid state, evidence for these interactions in solution is not observed in NMR spectra. The [H NMR chemical shifts for the neodymium... [Pg.228]

In this context, it is interesting to note that the first synthesis of 2, 3 -0,0-cyclic phosphorothioate 22a was reported by Eckstein in 1968 [25], He also isolated pure Rp diastereomer by fractional crystallization of the triethylammonium salts [26] and used it as reference to determine the absolute configurations of the other phosphorothioate analogues [27], 2, 3 -0,0-Cyclic H-phosphonate 20a was used as a key substrate for the synthesis of uridine 2, 3 -0,0-cyclic boranophosphate 27. Silylation of H-phosphate 20a gave the phosphite triester 25 (two diastereomers). Its boronation, with simultaneous removal of the trimethylsilyl group, was achieved by its reaction with borane-A.A-diisopropylethylamine complex (DIPEA-BH3). [Pg.108]

Benzpinacols (or their trimethylsilyl ethers) are effective electron donors and readily form vividly colored charge-transfer complexes with common electron acceptors such as chloranil (CA), dichlorodicyanobenzoquinone (DDQ), tetracyanobenzene (TCNB), methyl viologen (MV2+), and nitrosonium (NO+) cation.191-194 For example, the exposure of a silylated benzpinacol to chloranil... [Pg.253]

See other pages where A-Silyl complexes is mentioned: [Pg.268]    [Pg.227]    [Pg.268]    [Pg.2037]    [Pg.295]    [Pg.268]    [Pg.227]    [Pg.268]    [Pg.2037]    [Pg.295]    [Pg.311]    [Pg.517]    [Pg.41]    [Pg.10]    [Pg.697]    [Pg.29]    [Pg.175]    [Pg.546]    [Pg.259]    [Pg.282]    [Pg.172]    [Pg.265]    [Pg.282]    [Pg.286]    [Pg.139]    [Pg.74]    [Pg.56]    [Pg.116]    [Pg.258]    [Pg.75]    [Pg.304]    [Pg.726]    [Pg.20]    [Pg.74]    [Pg.201]    [Pg.206]    [Pg.206]    [Pg.207]    [Pg.228]    [Pg.243]    [Pg.246]    [Pg.7]    [Pg.425]   


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