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Nucleophile Addition Oxide

This scheme, set up with reactions in dichloromethane, gave spin adducts from several of the nucleophiles discussed above (F, Cl", AcO, CN, tetramethylsuccinimide anion and triethyl phosphite), provided UV light was employed. With filtered light of A > 435 nm, no spin adducts were detected. This is expected, since PBN cannot then be excited. With water as the nucleophile, only benzoyl nitroxide [9] was seen, indicating that any HO-PBN" disappears too rapidly to be detectable 10 s in acetonitrile) and/or that its rate of formation from PBN +ConW is too low (see above). The complication that nucleophilic addition-oxidation might compete was ruled out experimentally in dichloromethane, but detected for fluoride ion in chloroform, using dioxygen to oxidize the intermediate hydroxylamine anion. [Pg.120]

Thus there is little doubt that the hydroxyl radical, if generated by an unambiguous method such as pulse radiolysis, can be trapped by PBN or DMPO, even if the former has several deficiencies, among them low trapping efficiency and short half-life of HO-PBN. The problem in hydroxyl radical trapping thus rests with the possible competition from the nucleophilic addition-oxidation mechanism, as exemplified in reaction (69) for DMPO and Ox-Red as a general one-electron redox system, or the inverted spin trapping mechanism (70). The treatment to follow will mostly be limited to DMPO. [Pg.134]

Another example for applied indole-Cr(CO)3 chemistry from the Semmel-hack laboratory uses an intramolecular variant of the well-established nucleophilic addition-oxidation methodology in the synthesis of clavicipitic alcohol... [Pg.168]

Note at the outset that asymmetric catalysis in the synthesis of fine chemicals is rarely a single-step process that converts a reactant directly to the final product. It is usually one of the steps in a total synthesis but is often the key step. Hence the analysis of the overall yield will be based on the methods described in Chapter 5. There are many types of reactions where asymmetric catalysis can be applied. The most important of these are C-C bond-forming reactions such as alkylation or nucleophilic addition, oxidation, reduction, isomerization, Diels-Alder reaction, Michael addition, deracemization, and Sharpless expoxidation (of allyl alcohols). A few representative examples (homogeneous and heterogeneous) are given in Table 9.6. [Pg.260]

Chiral polymer Chiral polymer Nucleophilic addition Oxidation... [Pg.277]

See other pages where Nucleophile Addition Oxide is mentioned: [Pg.91]    [Pg.93]    [Pg.124]    [Pg.130]    [Pg.134]    [Pg.962]    [Pg.74]    [Pg.391]    [Pg.391]    [Pg.91]    [Pg.93]    [Pg.124]    [Pg.130]    [Pg.134]    [Pg.60]    [Pg.77]    [Pg.161]    [Pg.3320]    [Pg.391]    [Pg.3319]   


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Addition-oxidation reactions nucleophilic

Arene oxides nucleophilic addition reaction

Carbonyl oxides nucleophilic addition cyclization

Heteroatomic nucleophiles oxidation additions

Nitrogen nucleophiles oxidative addition

Nucleophilic attack oxidative addition reactions

Nucleophilic oxidation

Nucleophilic substitution oxidation additions

Oxidation nucleophile addition

Oxidation nucleophile addition

Oxidation nucleophiles

Oxidative addition nucleophilic substitution

Oxidative addition oxygen nucleophiles

Oxidative cyclization, nucleophilic addition

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