Picosecond study of the temperature dependence of electron transfer in the excited singlet state of a polymethine dye

Electron transfer from the first excited singlet state of a polyrnethine cyanine dye, DODCI, to various electron acceptors @-benzoquinone, pdinitrobenzene and methylviologen) was investigated using picosecond fluorescence and absorption spectroscopy. The electron transfer to methylviologen was confi

The lluorescencc fiferimes and quantum yields of the S2 state of xantbionc in benzene and isoloctanc sotution at room temperature have been mcnsurcd. The Sz iifctimn wcrc found to bc I8 2 2 ps in bcnzcnc and 43 % 'I! ps in iso-ocrane. The non-radiative decay rate constant is 5.6 x lO'\* s-l in benz

Fluorescence quenching of dye molecules such as coumarin 153, DCM and nile red by the stable 2,4,6-tri-tertbutylphenoxyl radical in an MTHF glass matrix at 77 K was studied by means of subnanosecond time-resolved fluorescence spectroscopy. The quenching process is ascribed to the dipole-dipole inter

The fluorescence emission from the S2 state of xanthione in benzene solution was time resolved using a Nd3' glass mode-locked laser driven light gate technique. Using a separate optical apparatus, in conjunction with the mode-locked laser, transient absorption spectta were recorded at times subseque