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Experimental appraisal of solvent effects on internal rotation barriers and stabilization energies of disubstituted methyl radicals

✍ Scribed by Raphael C. Mordi; John C. Walton

Publisher
John Wiley and Sons
Year
1993
Tongue
English
Weight
291 KB
Volume
31
Category
Article
ISSN
0749-1581

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✦ Synopsis

Abstract

The EPR spectra of aminopropynyl and aminocyanomethyl radicals were recorded in a variety of solvents with different dielectric constants. For the former radical the spectra showed exchange broadening due to restricted rotation about the H~2~NC˙ bond. Arrhenius parameters for the bond rotation, i.e. for the interconversion of the two rotamers, were obtained by computer simulation of the exchange‐broadened spectra. The rotational barrier height was found to change only marginally in solvents with dielectric constants ranging from 2.1 to 37.5. For both radicals the temperature dependences of the α(NH~2~) values also indicated little change in their H~2~NC˙ rotation barriers in solvents of differing polarity. Because rotation barriers are directly related to the stabilization energies (SE) of the radicals, it was concluded that solvent polarity has little effect on the SE of a capto‐datively substituted radical.

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