Cleavage of C— bond

When potassium amide, with added potassium metal in liquid ammonia, was substituted in the benzyne reaction, further cleavage of C—bonds of the intermediate dibenzopyrrocolines was often observed. The indoline 41 (32) and... 

Direct anodic oxidation of alkanes may be performed if they have ionization potentials lower than about 10 eV. Such oxidations can be classifted into two types of reactions, cleavage of C—bonds (equation 4) and cleavage of C—C bonds (equation S). 

Transamination represents a potentially useful method for the synthesis of amines—and also for the cleavage of C—bonds with a transfer of asymmetry (equation 174). Snell has reported the synthesis... 

Note however that Table 4 3 mcludes two entries for propane The second entry corresponds to the cleavage of a bond to one of the hydrogens of the methylene (CH2) group It requires slightly less energy to break a C—H bond m the methylene group than m the methyl group... 

Fig. 2. Values of the acidity of ethynylpyrazoles and the energies of heterocyclic cleavage of C—H bond calculated by the CNDO-2 method (75KGS821).

An important problem encountered with polymer electrodes is that of overoxidation. It occurs after reversible charging of the electrode at high oxidation potentials and leads to polymer degeneration. The results of thorough studies show that such degenerative mechanisms are promoted by the nucleophilicity of the solvent. Especially the activity of water leads to the formation of quinone-type compounds, to the cleavage of C—C bonds, the liberation of CO2, and the formation of carboxylic acids Hence, there is a clear tendency to avoid both nucleophile solvents... 

The oxidation of polymers is most commonly depicted in terms of the kinetic scheme developed by BoUand [14]. The scheme is summarized in Figure 15.1. The key to the process is the initial formation of a free-radical species. At high temperatures and at large shear forces, it is likely that free-radical formation takes place by cleavage of C-C and C-H bonds. 

Hydrolases catalyze the hydrolytic cleavage of C—C, C—O, C—N, P—O, and certain other bonds, including acid anhydride bonds. 

Besides dissociation of ligands, photoexcitation of transition metal complexes can facilitate (1) - oxidative addition to metal atoms of C-C, C-H, H-H, C-Hal, H-Si, C-0 and C-P moieties (2) - reductive elimination reactions, forming C-C, C-H, H-H, C-Hal, Hal-Hal and H-Hal moieties (3) - various rearrangements of atoms and chemical bonds in the coordination sphere of metal atoms, such as migratory insertion to C=C bonds, carbonyl and carbenes, ot- and P-elimination, a- and P-cleavage of C-C bonds, coupling of various moieties and bonds, isomerizations, etc. (see [11, 12] and refs, therein). 

Results discussed above show in several lines a distinct biomimetic-type activity of iron complexes stabilized in the ZSM-S matrix. The most important feature is their unique ability to coordinate a very reactive a-oxygen form which is similar to the active oxygen species of MMO. At room temperature a-oxygen provides various oxidation reactions including selective hydroxylation of methane to methanol. Like in biological oxidation, the rate determining step of this reaction involves the cleavage of C-H bond. 

The cleavage of C—S bonds in C—SO2R anion radicals plays an important role in SrnI tyP processes ". Kornblum and coworkers described a photostimulated electron transfer chain substitution at a saturated carbon where the leaving group is PhSOj ... 

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