Recent results from kinetic and spectroscopic laboratory studies of reactions of free radicals such as NO3 and SO4– with aromatic compounds in aqueous solution at T= 298 K are presented. Three different experimental approaches, (i) laser photolysis–visible long-path laser absorption, (ii) laser photolysis–UV long-path laser absorption and (iii) time-resolved broadband diode-array spectroscopy, have been used to investigate the kinetics of reactions of NO3 and SO4– with aromatics, as well as the formation of oxidation intermediates.For the reactions of NO3 with benzene (1), anisole (2), p-xylene (3), p-cresol (4), toluene (5), mesitylene (6) and 1,4-dimethoxybenzene (7), rate coefficients of k1=(4.0 ± 0.6)× 108 l mol–1 s–1, k2=(1.0 ± 0.4)× 109 l mol–1 s–1, k3=(1.6 ± 0.1)× 109 l mol–1 s–1, k4=(8.4 ± 2.3)× 108 l mol–1 s–1, k5=(1.2 ± 0.3)× 109 l mol–1 s–1, k6=(1.3 ± 0.3)× 109 l mol–1 s–1 and k7=(1.0 ± 0.3)× 109 l mol–1 s–1 were obtained. For the corresponding reactions of SO4– with benzene (8), toluene (9), p-xylene (10), p-cresol (11) and mesitylene (12), rate coefficients of k8=(6.4 ± 2.5)× 108 l mol–1 s–1, k9=(1.3 ± 0.6)× 109 l mol–1 s–1, k10=(2.7 ± 0.9)× 109 l mol–1 s–1, k11=(2.8 ± 0.8)× 109 l mol–1 s–1 and k12=(1.3 ± 0.4)× 109 l mol–1 s–1 were determined. Reactivity correlations for both radical species with the aromatic compounds are presented and potential applications of such correlations are discussed. In addition, the effect of ionic strength in the reactions of NO3 with benzene and toluene has been investigated. Transient intermediates have been spectroscopically identified in the reactions of the sulfate radical anion in aerated as well as in oxygen-free solutions. The nature of these intermediates is discussed in view of the existing literature. Finally, possible impacts of free-radical reactions with aromatic compounds on the current understanding of chemical conversion processes within tropospheric multiphase systems are considered.