Radical anions and radical trianions of tetracyanoarenoquinodimethanes. An ESR and ENDOR study

## Abstract Proton‐hyperfine data are reported for the radical anions generated from azulene (1) and its alkyl derivatives 2–11 in 1,2‐dimethoxyethane both ‘chemically’ with K and electrolytically. The alkyl derivatives are 1,3‐dimethyl‐ (2), 5,7‐dimethyl‐ (3), 1,3,5,7‐tetramethyl‐ (4), 2‐methyl‐ (

The radical anions and radical trianions of 2,4,6-triphenylphosphabenzene (1), 3,3º,5,5º-tetraphenyl-4k3,4ºk3diphosphabiphenyl-1,1º (2), 3,3/,5,5/-tetraphenyl-4k3,4/k3-diphosphaterphenyl-1,1º : 4º,1/ (3) and 3,3Ó,5,5Ótetraphenyl-4k3,4Ók3-diphosphaquaterphenyl-1,1º : 4º,4/ : 1/,1Ó (4) were studied by

## Abstract Radical anions often monocyclic and bicyclic azoalkanes containing the azo group in (__Z__)‐conformation, have been fully characterized by their hyperfine data with the use of ESR, ENDOR, and general‐TRIPLE‐resonance spectroscopy. These azoalkanes are represented by 3,3,5,5‐tetramethyl‐

## Abstract Radical anions of ten monocyclic and bicyclic azoalkanes containing the azo group in (Z)‐conformation, have been fully characterized by their hyperfine data with the use of ESR, ENDOR, and general‐TRIPLE‐resonance spectroscopy. These azoalkanes are represented by 3,3,5,5‐tetramethyl‐1‐p