Hydrogen‐Atom Transfer in Reactions of Organic Radicals with [Co^II(por)]^. (por=Porphyrinato) and in Subsequent Addition of [Co(H)(por)] to Olefins

Abstract: The mechanisms for hydrogen-atom transfer from the cyanoisopropyl radical (*)C(CH(3))(2)CN to [Co(II)(por)](*) (yielding [Co(III)(H)(por)] and CH(2)=C(CH(3))(CN); por = porphyrinato) and the insertion of vinyl acetate (CH(2)=CHOAc) into the Co-H bond of [Co(H)(por)] (giving [Co(III){CH(OAc)CH(3)}(por)]) were investigated by DFT calculations. The results are compared with experimental data. These reactions are relevant to catalytic chain transfer (CCT) in radical polymerization of olefins mediated by [Co(II)(po… Show more

“…The obtained benzylic radical could be responsible for a hydrogen transfer reaction to cobalt(II) porphyrin yielding cobalt(III) hydride (J) and a naphthalene molecule. Then, the transfer of a hydrogen atom from complex J to the substrate forms another benzylic radical which, by reacting with complex I, affords the benzylic amine D. This mechanistic proposal is in accord with that already described [42] for the transfer of hydrogen atoms in the reactions of organic radicals with Co(II) porphyrin complexes.…”

Co(porphyrin)-catalysed amination of 1,2-dihydronaphthalene derivatives by aryl azides

“…The obtained benzylic radical could be responsible for a hydrogen transfer reaction to cobalt(II) porphyrin yielding cobalt(III) hydride (J) and a naphthalene molecule. Then, the transfer of a hydrogen atom from complex J to the substrate forms another benzylic radical which, by reacting with complex I, affords the benzylic amine D. This mechanistic proposal is in accord with that already described [42] for the transfer of hydrogen atoms in the reactions of organic radicals with Co(II) porphyrin complexes.…”

Co(porphyrin)-catalysed amination of 1,2-dihydronaphthalene derivatives by aryl azides

“…In a similar way, AIBN functioned as a viable source of H-atom at elevated temperature (entry 12), in support of a radical mechanism for reversible HAT and analogous to the mechanism associated with Co-porphyrin/AIBN living radical polymerization. 30 , 31 Exclusion of either AIBN or the Co catalyst resulted in no isomerized product (see Supporting Information ).…”

“… 40 HAT is further supported by the absence of a proximal, empty valence for hydrometalation or cyclometalation on the putative Co-salen hydride complex. 31 The isomerization appears to be under kinetic, not thermodynamic control, since isopentenyl prenyl malonate 26 cycloisomerizes, whereas diprenyl malonate 27 does not, even though both species would give rise to the same radical intermediate subject to the same unimolecular cyclization rate. A tentative catalytic cycle based on these observations is shown in Figure 4 .…”

Simple, Chemoselective, Catalytic Olefin Isomerization

“…19,31 As in the case of 1, the relevant carbene intermediate, 5, is considered to have radical character and is able to react particularly readily with electron-poor olefins to give cyclopropanes. Cyclopropane ring formation is often a kinetically fast process 32 but especially so here, where ring closure is likely aided by the presence of a relatively weak Co-C bond.…”

Redox-active ligands in catalysis