Thermal cis-trans isomerization of triazo-benzene

1,3,5-Hydroxy-triazo-benzene (H-TAB) was synthesized through a coupling-oxidation protocol. Temperature-controlled UV, IR, and ab initio calculation were carried out to investigate the cis-trans thermal isomerization of H-TAB. In temperature-controlled UV experiments, λ_max of the π-π^* band and for the trans conformation at 335 nm and that for the cis form at 282 nm are shifted by increased temperature; band intensities of the π-π^* transition decrease and λ_max of the π-π^* band is shifted toward the high-energy region. The maximum peak at 2922 cm^-1 is shifted to 2926 cm^-1, and that at 2852 cm^-1 is shifted to 2856 cm^-1 at increased temperature in the temperature-controlled IR experiment. Ab initio calculation reveals that the cis conformation of H-TAB is more stable than the trans form because the cis form has less spatial repulsion. Therefore, the ground-state energy difference induced by steric repulsion of the benzene unit is the driving force of the blue shift in the thermal IR and UV spectra for the triazo-benzene.