Single and double proton transfer in excited hydroxy derivatives of bipyridyl

We report on a subpicosecond fluorescence study of [2,2'-bipyridyl]-3,3'-diol using the fluorescent up-conversion technique with a time resolution of --300 fs. A new short-living fluorescence band, peaking at 568 nm, is observed, which is attributed to the emissive keto-enol tautomer. This tautomer

The "double" derivatives of benzoxazole, bis-&S-(2-benzoxaroiyl)hydroquinone (II) and bis-3,6-(2-benzosazolyl)pyrocatochol (III), have been investigated. In (II), ordy one proton is transferred in the Sr state. Primary and tautomeric forms exist in a rapidly established equilibrium. In (III), two ta

## Abstract __Density functional theory and quantum dynamics simulations have been used to study the double‐proton transfer reaction in 2,2′‐bipyridyl‐3,3′‐diol in the first singlet excited electronic state. This process is experimentally known to be branched: It consists of a fast, concerted react

In hctcrodlmers o! I-azac~rbuole \rlth 7-azmndolc cwdcd-stJte double proton ~mnsfcr occurs. The resulting klUlOllleI SIIO\\S rl lluorcscence band WIIII a maximum at 5 IO nm TIIC ground-state assocldhon constanl for thC formalIon of I-mcarb,xolc/7-azaindole lwtcrodlmers In 3-mclhylpcntanc at 20°C. .I