Journal of Physical Chemistry A, Vol.112, No.15, 3339-3344, 2008
Femtosecond photolysis of aqueous formamide
In this work, we investigate the primary photodynamics of aqueous formamide. The formamide was photolyzed using 200 mu femtosecond pulses, and formation of products and their relaxation was followed with similar to 300 fs time resolution using probe pulses covering the range from 193 to 700 nm. Following excitation, the majority of formamide molecules (similar to 80%) converts the electronic excitation energy to vibrational excitation, which effectively is dissipated to the solvent through vibrational relaxation in just a few picoseconds. The vibrational relaxation is observed as a distinct modulation of the electronic absorption spectrum of formamide. The relaxation process is modeled by a simple one-dimensional wavepacket calculation. A smaller fraction of the excited formamide molecules dissociates to the CHO and NH2 radical pairs, of which 50% escape recombination. In addition to the electronic excitation of formamide, we also observe a small contribution from one-photon ionization of formamide and two-photon ionization and dissociation of the water solvent.