Elsevier, Chemical Physics Letters, 5-6(370), p. 747-755
DOI: 10.1016/s0009-2614(03)00165-9
Full text: Download
The spectroscopy and dynamics of the low-lying triplet state of the proton-transfer tautomer in salicylaldehydes have been studied via internal heavy-atom effects coupled with a sensitive near-IR detecting system. For 3,5-diiodosalicylaldehyde a weak proton-transfer keto-tautomer phosphorescence was resolved with a maximum at 710 nm (, Φobs∼5.23×10−4) in a 77 K methylcyclohexane glass. The results, in combination with the time-resolved thermal lensing experiment, further deduced the triplet-state population yield and radiative decay rate to be 0.20 (298 K) and , respectively. Consequently, the energetics and dynamics of the triplet states during a proton transfer cycle are discussed in detail.