Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Metal silyl

Scheme 8.31 Smith Ill s three- and multicomponent linchpin coupling of metalated silyl dithiane 109 with epoxides. Scheme 8.31 Smith Ill s three- and multicomponent linchpin coupling of metalated silyl dithiane 109 with epoxides.
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]

Recent developments of metal silyls of the type M(SiR3) . E. Wiborg, O. Strecher, H. J. Andra-sheck, L. Kreuzbichler and E. Staude, Angew. Chem., Int. Ed. Engl., 1963, 2, 507-515 (24). [Pg.54]

The majority of transition metal silyls (data for which are listed in Table II) contain simply one or more -SiR,R2R3 groupings, where the groups R... [Pg.254]

The major synthetic routes to transition metal silyls fall into four main classes (1) salt elimination, (2) the mercurial route, a modification of (1), (3) elimination of a covalent molecule (Hj, HHal, or RjNH), and (4) oxidative addition or elimination. Additionally, (5) there are syntheses from Si—M precursors. Reactions (1), (2), and (4), but not (3), have precedence in C—M chemistry. Insertion reactions of Si(II) species (silylenes) have not yet been used to form Si—M bonds, although work may be stimulated by recent reports of MejSi 147) and FjSi (185). A new development has been the use of a strained silicon heterocycle as starting material (Section II,E,4). [Pg.263]

Salt Elimination Reaction of an Alkali Metal Silyl with a Transition Metal Halide... [Pg.264]

In addition to routine spectroscopic characterization, transition metal silyls have been examined by a variety of physical methods, principally to determine (1) the definite presence of an Si—M bond, (2) the manner in which such a bond is influenced by other ligands, (3) whether such a bond possesses any w-component, and (4) the trans influence of the silyl ligand. [Pg.280]

Previous investigations of the photolysis reactions of 5 in the presence of various silanes only showed the products of Si-H activation [20], Metal silyl hydride formation, however, becomes the main reaction path with sterically less hindered silanes [21]. [Pg.179]

Anionic Transition Metal Silyl Complexes New Building Blocks in Coordination Chemistry... [Pg.205]

The alkene inserts either in the metal hydride bond or in the metal silyl bond. The latter reaction leads to alkenylsilyl side products and also alkane formation may occur. Similar reactions have been observed for hydroboration, the addition of R2BH to alkenes. (R2 may be the catechol dianion). [Pg.39]

The X-ray structure of 83 was in accord with the prediction of Scheme 4 in that the Si-Cl bond lies in the niobocene bisecting plane trans to the hydride and is elongated compared with classical complexes of the type [M(SiR2Cl)L ]. There was, however, no good reference system that would allow for the comparison of the Nb-Si bond lengths. The metal-silyl bond lengths are strongly affected by Bent s... [Pg.272]

Immobilization of Rare-Earth Metal (Silyl)amide Complexes... [Pg.466]

Insertion of unsaturated molecules into a transition metal-silyl bond has been suggested for the catalytic reactions related to hydrosilylation and silylcarbonylation. However, there is little direct evidence supporting such a process for unsaturated molecules to insert into a metal-silyl bond in organometallic complexes. " Thus, the fact that 108 is readily derived from 11 and 13 demonstrates the participation of this process in the catalytic cycle of silylformylation. [Pg.485]

The reaction mechanism commonly accepted to account for the double silylation of unsaturated substrates involves three key steps. First, the disli-lane undergoes oxidative addition to the metal center, forming a transition metal-bis(silyl) complex. The unsaturated moiety inserts into the metal-silyl bond, followed by Si-C reductive elimination to give the double sily-... [Pg.209]

TABLE 1. Selected M—Si distances in group-4 transition-metal silyl complexes... [Pg.2051]

TABLE 2. Selected 29Si NMR chemical shifts for group-4 transition-metal silyl complexes"... [Pg.2051]

See other pages where Metal silyl is mentioned: [Pg.260]    [Pg.287]    [Pg.205]    [Pg.98]    [Pg.475]    [Pg.513]    [Pg.514]    [Pg.514]    [Pg.521]    [Pg.130]    [Pg.374]    [Pg.224]    [Pg.209]    [Pg.272]    [Pg.274]    [Pg.207]    [Pg.227]    [Pg.1872]    [Pg.2037]    [Pg.2039]    [Pg.2041]    [Pg.2043]    [Pg.2043]    [Pg.2045]    [Pg.2047]    [Pg.2049]    [Pg.2051]    [Pg.2052]    [Pg.2053]    [Pg.2054]   
See also in sourсe #XX -- [ Pg.382 ]



SEARCH



Alkali metal enolates silyl enol ethers

Alkyl metals, 1-silyl-1-selenoreactions with carbonyl compounds

Boranes metal silyls

Boron metal silyls

Chiral silyl-transition-metal complexes

From Metal Silyls

Halides metal silyls

Hydrides reactions with metal silyls

Immobilization of Rare-Earth Metal (Silyl)amide Complexes

Metal alkoxides reactions with silyl esters

Metal atoms silyl halides

Metal silyl anions

Metal silyl halides

Metal-silyl bonds

Rare earth metal silyls

Reactions of Silyl Anions with Metal Halides

Rearrangement of Metallated Aryl Silyl Ethers

Silyl alkali metals

Silyl anions metal-free

Silyl anions transition-metal halides

Silyl complexes with group 3 transition metals

Silyl metal complexes

Silyl metal compounds

Silyl metals, addition

Silyl multiply metalated

Silyl-transition metal complexes

Silyl-transition metal complexes anionic derivatives

Silyl-transition metal complexes synthesis

Silylation of Allyl-Metal Species

Silyls metal

Silyls metal

Silyl—Alkali Metal Reagents

Structural studies metal-silyl complexes

Structures of Metal-Silyl Complexes

Synthesis of Metal-Silyl Complexes

Transition metal silyl compounds

© 2024 chempedia.info