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Cr-donor

Trivalent carbenium ions are the key intermediates in electrophilic reactions of Tt-donor unsaturated hydrocarbons. At the same time, pen-tacoordinated carbonium ions are the key to electrophilic reactions of cr-donor saturated hydrocarbons through the ability of C-H or C-C single bonds to participate in carbonium ion formation. [Pg.149]

Phosphino-oxazoline)copper complex 28 was found by Helmchen et al. to be an excellent Diels-Alder catalyst [37] (Scheme 1.47, Table 1.20). The nitrogen atom acts as an electron-donating ligand, whereas phosphorus is a cr-donor-Tt-acceptor ligand. The copper complex of this phosphino-oxazoline ligand is therefore expected to have... [Pg.32]

IR data [131] shows a trend to increasing i/(C-0) as the substituents on the phosphine became more electron withdrawing (Table 2.11) so that as the cr-donor power of the phosphine decreases and the 7r-acceptor power increases, the electron density at Ir decreases and electrons are removed from the "-orbital of CO [132]. [Pg.139]

The lobes of electron density outside the C-O vector thus offer cr-donor lone-pair character. Surprisingly, carbon monoxide does not form particularly stable complexes with BF3 or with main group metals such as potassium or magnesium. Yet transition-metal complexes with carbon monoxide are known by the thousand. In all cases, the CO ligands are bound to the metal through the carbon atom and the complexes are called carbonyls. Furthermore, the metals occur most usually in low formal oxidation states. Dewar, Chatt and Duncanson have described a bonding scheme for the metal - CO interaction that successfully accounts for the formation and properties of these transition-metal carbonyls. [Pg.122]

Novel ruthenium-amidinate complexes of the type (j -CgHsRlRufamidina-te)X (R = Me, OMe, F X = Cl, Br, OTf) and [Ru(amidinate)(MeCN)4][PF6] have been synthesized by photochemical displacement of the benzene ligand in (j -CgHglRufamidinatelX by substituted arenes or MeCN. The acetonitrile ligands of [Ru(amidinate)(MeCN)4][PF6] are easily replaceable by other cr-donor ligands (L) such as pyridines, phosphines, and isocyanides to afford the corresponding derivatives [Ru(amidinate)(MeCN) (L)4 ][PF6] n — 1, 2). These reactions are summarized in Scheme 142. ... [Pg.279]

Inductive and resonance parameters, (Tr°, ct, were evaluated for the isocyanide ligand from F chemical shifts they suggest that the isocyanide is a good cr-donor and a weak ir-acceptor. [Pg.81]

The isomer shift is considered the key parameter for the assignment of oxidation states from Mossbauer data. The early studies, following the first observation of an isomer shift for Fe203 [7], revealed a general correlation with the (formal) oxidation state of iron. However, isomer shifts have also been found to depend on the spin state of the Mossbauer atom, the number of ligands, the cr-donor and the... [Pg.83]

Preparation and Structure. - Among a number of interesting conclusions drawn from ab initio calculations on the model substituted ylide system (1) is that cr-donor and ir-acceptor... [Pg.298]

As heavier analogs of carbenes141) stannylenes can be used as ligands in transition-metal chemistry. The stability of carbene complexes is often explained by a synergetic c,7t-effect cr-donation from the lone electron pair of the carbon atom to the metal is compensated by a a-backdonation from filled orbitals of the metal to the empty p-orbital of the carbon atom. This concept cannot be transferred to stannylene complexes. Stannylenes are poor p-a-acceptors no base-stabilized stannylene (SnX2 B, B = electron donor) has ever been found to lose its base when coordinated with a transition metal (M - SnXj B). Up to now, stannylene complexes of transition metals were only synthesized starting from stable monomoleeular stannylenes. Divalent tin compounds are nevertheless efficient cr-donors as may be deduced from the displacement reactions (17)-(20) which open convenient routes to stannylene complexes. [Pg.36]

Nitrogen heterocycles have a strong affinity for platinum(II), and complexes of these ligands, particularly pyridine and related diimines such as bipy, are ubiquitous.189,190 The favorable electronic (strong cr-donor/weak 7r-acceptor) and steric properties of such ligands lead to the... [Pg.698]

A T structure with the strongest ct-donor D trans to the empty site (I in Scheme 1) is preferred in the case of three pure cr-donor ligands. The presence of a ir-acceptor ligand also makes the T structure more stable. When one of the ligands is a tt-donor, X, a Y structure of type II (Scheme 1) is observed. This structure permits the formation of a w bond between the empty metal d orbital and the lone pair of X. No such tt bond is present in the T structure since all symmetry adapted d orbitals are filled. This partial M—X multiple bond stabilizes Y over T. [Pg.4]

The temperature at which a cycloaddition reaction of a neopentylsilene takes place (detected by the elimination of LiCl) has turned out to be dependent on the reaction partners added as substrate. This implies that an interaction between the substrate and A or B or the substrate and C occurs somewhere along the reaction pathway depicted above. For the system Cl3SiCH=CH2/LiBut/R2C=NR it was observed that the imine initiates and supports the salt elimination from the species A/B. Based on the knowledge that silenes are stabilized by external donors [1] we conclude that with carbon unsaturated compounds x-donor interactions instead of cr-donor complexes may be possible as well for the lithiated species (D) as for the silene itself (E). [Pg.104]

Fischer carbenes characteristically contain a number of electron-withdrawing carbonyl ligands while the typical Ru, Os, or Ir carbene complexes described above frequently contain several cr-donor ligands. The metal centers in these former compounds, then, are rather electron-deficient, with nucleophilic attack at Ca being a favorable reaction. [Pg.153]

Although reports on silver(i) cr-alkynyl complexes have appeared for more than a century, the number of examples was still very limited prior to the past decade, and many of them were referred to as insoluble homoleptic polymeric [Ag(C=CR)]oo. Molecular alkynylsilver(i) complexes were often heteroleptic in nature and were achieved commonly through the stabilization by an extra coordination with strong cr-donor ligands such as amines, phosphines, and arsines. [Pg.226]

Sulfonium and oxosulfonium ylides or mixed phosphonium/sulfonium ylides are equally potent cr-donors for gold(i) and gold(m) centers (Scheme 32)<1 2 166 i68... [Pg.273]

Most gold(i) isocyanide complexes are colorless, crystalline materials, stable in air at room temperature, and soluble in common organic solvents. The compounds have been generally well characterized by IR/Raman and NMR spectroscopy, and crystal structures have been determined for almost a 100 examples. From the spectroscopic and structural data, it has been concluded that gold(i) isocyanides are strong cr-donors and poor 7r-acceptors. [Pg.280]

See other pages where Cr-donor is mentioned: [Pg.128]    [Pg.416]    [Pg.1037]    [Pg.1164]    [Pg.120]    [Pg.11]    [Pg.238]    [Pg.274]    [Pg.112]    [Pg.123]    [Pg.123]    [Pg.126]    [Pg.158]    [Pg.87]    [Pg.275]    [Pg.279]    [Pg.280]    [Pg.352]    [Pg.352]    [Pg.353]    [Pg.438]    [Pg.17]    [Pg.254]    [Pg.298]    [Pg.303]    [Pg.376]    [Pg.574]    [Pg.720]    [Pg.278]    [Pg.165]    [Pg.210]    [Pg.216]    [Pg.272]    [Pg.296]   
See also in sourсe #XX -- [ Pg.85 ]



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Cr-Donor ability

Cr-donor ligand

Cr-donor orbitals

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