Cation Photorelease from a Crown-ether Complex

2 Cation Photorelease from a Crown-ether Complex 

Demonstration of the photorelease has been done in particular with Sr + [46]. This process was monitored on several time scales providing evidence for (1) the delayed formation in 9 ps of the charge transfer state of the merocyanine chromophore following ultrafast photodisruption of the nitrogen - cation interaction, (2) the cation movement away from the excited chromophore into the bulk in 400 ps, (3) recombination of the complex in the ground in about 120 ns. These three steps are respectively illustrated in Fig. 7.17a, b, c (see caption for details). Similar transient absorption studies have been carried out on a PDS-crown-Ca + complex, where PDS is an aza-crown derivative of a substituted stilbene [47]. The spectrodynamics observed on the short time scale are very similar to those found in step (1) of the above description, with in particular a delayed rise of a stimulated emission band attributed to a solvent-separated cation-probe pair. Although the full scenario of the cation photoejection from the DCM-crown-Sr, is complex [46], the spectra shown in Fig. 7.17 demonstrate that at least part of the photoexcited complexes does eject the ion into the bulk. 

A star indicates the excited state, (a) The picosecond change in the differentiai absorption spectrum, with the observation of isosbestic points, is attributed to the formation, deiayed by the presence of the ion, of the intramoiecuiar charge transfer state known for the free iigand [44]. (b) The time resoived subnanosecond red shift of the 

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