Charge-transfer complexes of chloranil in solution: A conductometric study

The charge-transfer complexes of chloranil as acceptor component, with p-phsnylene d&nine and p-ethoxyaniline as donors have been studied in methyl alcohol by conductometric measurements. The stoichiometry of charge transfer complexes has been determined from the position of the conductivity maximum

A conductivity titration method has been used to investigate the electron-transfer activity in the charge-transfer complex= formed in a&o&rile between the donor chlorpromazine and the acceptors 2,3\_dichloro+-dicyauobeuzoqu@one, tetrachloro-1,4quinone, tetracyanoethylene, and 7,7,8,8\_tetracyanoquin

Al&met-The formation of charge-transfer complexes can be followed by conductimetric titration. Either a donor solution is titrated with a solution of an acceptor, or vice versa, both using the same solvent. A theory is presented requiring the conductivity to pass through a maximum when donor and acc

## Abstract The ^13^C n.m.r. spectra of complexes between __o__‐chloranil and aromatic electron donors were studied. Complexation leads to a general diamagnetic shift of the ^13^C n.m.r. signals for the acceptor (__o__‐chloranil), but for signals from the ^13^C nuclei in the donors both diamagnetic

Femtosecond transient absorption studies of charge-transfer complexes of 12 with hexamethylbenzene have been performed in a series of noncomplexing solvents. Anisotropy measurements of the bleach of the charge-transfer absorption band indicate that the geometry and electronic structure of the comple