N,N-dimethylformamide, HCON(CH3)2, is a useful model compound for investigating peptide bond photofragmentation dynamics. We report data from a comprehensive experimental and theoretical study into the photofragmentation dynamics of N,N-dimethylformamide in the gas phase at 193 nm. Through a combination of velocity-map imaging and hydrogen atom Rydberg tagging photofragment translational spectroscopy, we have identified two primary fragmentation channels, namely fission of the NCO `peptide' bond, and NCH3 bond fission leading to loss of CH3. The possible fragmentation channels leading to the observed products are rationalised with recourse to CASPT2 calculations of the ground and first few excited-state potential energy curves along the relevant dissociation coordinates, and the results are compared with data from previous experimental and theoretical studies on the same system
