Photodissociation of permanganate (MnO4-) produces the manganese dioxide anion (MnO2-) in an excited triplet state

Photoelectron imaging, electron action spectroscopy and electronic structure calculations are used to probe the structure and dynamics of MnO4-. Following excitation to the first bright absorption band of MnO4- (1(1)T(2)), photodetachment, via ground state electron loss, and photodissociation, to produce MnO2-, are both observed to occur simultaneously. MnO2- is produced in an excited electronic state, identified as a triplet state, which indicates that the dissociation proceeds on singlet potential energy surfaces via spin conservation. Furthermore, electronic structure calculations indicate that both photodetachment and photodissociation are multiple photon processes that are mediated by the same 1(1)T(2) excited state. Taken together this data indicates that photodissociation of MnO4- occurs via a statistical dissociation on the MnO4- ground state at visible wavelengths.

Automated summary

Photoelectron imaging, electron action spectroscopy, and electronic structure calculations were used to investigate the structure and dynamics of MnO4-. It was found that MnO4- undergoes photodetachment and photodissociation to form MnO2- upon excitation to the 1(1)T(2) absorption band. MnO2- is produced in an excited triplet state, suggesting that dissociation occurs via spin conservation on singlet potential energy surfaces.