Energy conversion in van der Waals complexes of s-tetrazine and argon
Abstract
The van der Waals complex T·Ar has been prepared by expanding argon seeded with s-tetrazine through a nozzle. The complex dissociates when excited to single vibronic levels of the S1(1B3u) state of tetrazine. Information about both the vibrational state distribution of the dissociation fragment T and vibrational relaxation which takes place in the complex has been obtained from spectrally resolved and time-resolved fluorescence.
The relative yields of relaxation and dissociation processes depend upon the excess vibrational energy εw absorbed by the van der Waals modes. The magnitude of εw was varied using different sequence transitions of the van der Waals modes, by tuning the laser successively to different wavelengths within the contour of a particular absorption band. The observed effects can be interpreted qualitatively in terms of the momentum-gap law.
The dissociation of the 6a1 state of T·Ar proceeds via two consecutive steps. Lower and upper limits to the dissociation energy D′0(of the 6a1 state) are 276 and 448 cm–1. Energy transfer from the 16a mode as well as from the 16b mode to the van der Waals bond gives rise to dissociation of the complex. The dissociation rates are of the order of 109 s–1 and they are dependent on εw.