The effect of 8 solvents on the rate as well as the yields of complexation of toluene with Cr(CO)6 has been studied. It has been found that the intensity of boiling has a profound effect on the rate of complexation in some cases (whenn-hexanol, cyclohexanone or diglyme is used as solvent). The rates of complexation are highest in these cases, but a considerable extent of decomposition results in lower yields. Butyl acetate, dibutyl ether and decalin have been found to be the most feasible solvents. Additionally, 27 different catalysts have been tested for the complexation of toluene in decalin solution, their effect being quantified by rate constants and the isolated yields of the reaction. The rate constants have been obtained from the rate of CO evolution and vary from 6.6·10−5 s−1 for formic acid to 6.5·10−4 s−1 for ethyl acetamidomalonate. Cycloalkanones proved to be more efficient catalysts than acyclic ketones with a close boiling point. Lactones are more efficient than esters, both cyclic and acyclic ketones, and diesters, all having a similar boiling point.