The Effect of Radical Size and Mass on the Cage Recombination Efficiency of Photochemically Generated Radical Cage Pairs

Abstract

This study explored the effect of radical size, chain length, and mass on the radical cage effect. Radical cage pairs of the type [(RCp)(CO)3M•, •M(CO)3(CpR)] (M = Mo or W; CpR = various substituted cyclopentadienyl ligands) were generated by photolysis (λ = 540 nm) of the metal−metal bonds in (RCp)2M2(CO)6. The cage recombination efficiencies (denoted as FcP) for the radical cage pairs were obtained by extracting them from quantum yield measurements for the photoreactions with CCl4 (a metal-radical trap) as a function of solvent system viscosity. For the series of molecules (R3SiOCH2CH2Cp)2Mo2(CO)6 (R = Me, i-Pr, n-Pr, n-Hx), the FcP values were linearly proportional to mass1/2/radius2, in agreement with the predictions of Noyes' cage effect theory. It is also demonstrated that the difference in the cage recombination efficiencies between the [(MeCp)(CO)3Mo•, •Mo(CO)3(CpMe)] and [(MeCp)(CO)3W•, •W(CO)3(CpMe)] cage pairs cannot be ascribed to the different masses of the radicals. Rather, the difference is...