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Alkyl electron transfer bridges

Electrogenerated monovalent Co complexes of the well-known open chain N202 Schiff base ligands salen (8), salphen (9), and their substituted derivatives undergo oxidative additions with alkyl halides. Reactions of the complex with substrates within the series RBr (R = Pr, Bu, t-Bu) proceed at different rates. The reaction occurs by an inner-sphere alkyl-bridged electron transfer, with a Co1- R+- X-transition state, which is sensitive to distortions of the complex in different configurations.124... [Pg.11]

Traditionally, electron transfer processes in solution and at surfaces have been classified into outer-sphere and inner-sphere mechanisms (1). However, the experimental basis for the quantitative distinction between these mechanisms is not completely clear, especially when electron transfer is not accompanied by either atom or ligand transfer (i.e., the bridged activated complex). We wish to describe how the advantage of using organometals and alkyl radicals as electron donors accrues from the wide structural variations in their donor abilities and steric properties which can be achieved as a result of branching the alkyl moiety at either the a- or g-carbon centers. [Pg.113]

An operational description is that one reactant (the more ionic compound with the more electropositive metal) transfers alkyl anions to the other. Thus the four methyl groups in Li2BeMe4 form a distorted tetrahedron around the beryllium, with longer distances to the lithium ions. However, this description is oversimplified. The low-temperature nuclear magnetic resonance (NMR) spectrum of Li3MgMe5 has three different methyl resonances, suggesting structure (14), related to the MeLi tetramer. Ate complexes with zinc and aluminum compounds also form. Electron-deficient bridge-bonded structures, exemplified by the X-ray structure of... [Pg.297]

A significant observation for cobaloximes as B12 models was the reduction of MeCo L4(B) by Cr(aq) +, which gave Co L4(B) and Cr(Me)(aq) + (equation 37). These products are indicative of an inner-sphere (see Inner-sphere Reaction) electron transfer with Me as the bridging ligand. This result has promoted further studies, notably methyl transfer between cobaloximes and nickel tetraazacycle complexes, which provides a possible model for the methylcobalamin alkylation of CO hydrogenase. ... [Pg.858]

The di-N-alkyl derivatives of 1,5- and 1,8-naphthyridine have significantly different properties. Diquaternary salt 99 is relatively stable in neutral solution, whereas 100 exists in equilibrium with its pseudo base (101). A similar pseudo base structure (103) has been identified in the 1,8-bridged compound (102). The 1,5-naphthyridine salt (99) is readily reduced by a one-electron transfer process to give a fairly stable green radical cation (104). [Pg.165]

Cycloadditions only proceeding after electron transfer activation via the radical cation of one partner are illustrated by the final examples. According to K. Mizono various bis-enolethers tethered by long chains (polyether or alkyl) can be cyclisized to bicyclic cyclobutanes using electron transfer sensitizer like dicyanonaphthalene or dicyano-anthracene. Note that this type of dimerization starting from enol ethers are not possible under triplet sensitization or by direct irradiation. Only the intramolecular cyclization ci the silane-bridged 2>. s-styrene can be carried out under direct photolysis. E. Steckhan made use of this procedure to perform an intermolecular [4+2] cycloaddition of indole to a chiral 1,3-cyclohexadiene. He has used successfully the sensitizer triphenylpyrylium salt in many examples. Here, the reaction follows a general course which has been developed Bauld and which may be called "hole catalyzed Diels-Alder reaction". [Pg.205]

The primary alkyl group of Co(III) species can be transferred to a Co(I) species under basic conditions . However, alkyl group transfer from Co(III) to Co(II) complexes is more commonly achieved where one electron transfer via a saturated carbon bridge may be involved " . [Pg.599]

Sannicolo et al. first reported the electropolymerization of a Ceo-derivatized bridged bithiophenic precursor (235) [431]. Ferraris et al. have described the synthesis and the electropolymerization of a bithiophene with a Cgo group attached at P-position by an alkyl spacer (236), whereas processable PT copolymers were postfunctionalized with Cgo to give polymers [432]. Recently, PT with Cgo groups connected to the rr-conjugated polymer chain by a phenyl polyether linker has been prepared by electropolymerization of bithiophene 237 [427,433]. While the donor backbone and the acceptor moiety do not interact in the ground state, a photoinduced electron transfer between the PT chain and the attached Cgo group has been demonstrated by ESR measurements. [Pg.531]

The excited states of dinuclear platinum, rhodium, and iridium complexes with a variety of bridging ligands exhibit unusually diverse reactivity. These types of compound in their lowest triplet state engage in oxidative and reductive electron transfer reactions, and exciplex formation [56], They can also engage in atom transfer reactions i.e. they can abstract hydrogen atoms from a wide range of substrates as well as halogen atoms from alkyl and aryl halides. [Pg.122]

See other pages where Alkyl electron transfer bridges is mentioned: [Pg.737]    [Pg.49]    [Pg.216]    [Pg.308]    [Pg.487]    [Pg.495]    [Pg.203]    [Pg.165]    [Pg.23]    [Pg.27]    [Pg.225]    [Pg.2065]    [Pg.1851]    [Pg.2556]    [Pg.433]    [Pg.202]    [Pg.2064]    [Pg.849]    [Pg.87]    [Pg.994]    [Pg.384]    [Pg.161]    [Pg.6377]    [Pg.231]    [Pg.33]    [Pg.259]    [Pg.154]    [Pg.192]    [Pg.63]    [Pg.64]    [Pg.1166]    [Pg.1166]    [Pg.433]    [Pg.395]   
See also in sourсe #XX -- [ Pg.555 , Pg.563 ]



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Alkyl transfer

Alkyls bridges

Alkyls bridging

Bridged electron transfer

Transfer-alkylation

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