Electron tunnelling in frozen aqueous solutions at 77 K

A delayed fluorescence emission of biphotonic nature with the triplet state intermediary is observed from indole ring in low temperature water glasses or in polycrystalline ices. Electron scavengers like CdZ+ions are shown to quench the D.F. emission. A mechanism involving "mobile" electrons or elec

A species which has the characteristics of shallowly trapped electrons, has been observed in an X-irradiated annezded methanol/water matrix. ?Ze species has a narrow slinglet ESR line iaH = 3.2 G) and is easily bleachable with Light OF wave- length 1000 nm. Furthermore, only 4 x lo3 h1 of the electr

ITL kinetics of pure and phenol-containing alkaline glasses obey a reciprocal time faw which can be derived by differentiation from the decay kinetics of trapped electrons. It is compatible with a tunnelling mechanism. 1. introduction It was observed earlier [ 1,2f that trapped electrons (e&) in gla

Trapped electrons produced in y-irradiated alkylamine glasses at 77OK have been observed by ESR and optical absorption. It has been found that a correlation exists between the ESR tinewidth and the wavelength of maxImum absorption in the optical spectrum. It is also shown tit the ErjR and optical re