Temperature dependence of the lifetime of pyrene triplet excimer emission

The intrinsic fluorescence yield and lifetime for the benzene exciiner are presented as functions of temperature. 'The excimer radiative decay process is found to be temperature dependenr, with an activation en&y of 0.145 eV and an associated pre-exponential factor of 2.4 X 1Oa set-' .

Triplet energy transfer to a guest in a pyrene host matrix is used to lomate the triplet excimer level in solid pyrenc. Tbe fohtion is found to be between 15 800 cm-' and 16 506 cml. A mixed triplet excimer from pyrene-1,12benzperyhe

Horrgo. Eurrkyo-X-u. Tokyo 113. Japorr RccGed 6 Fcbruar) 1981; m l-u131 form 10 Norcmbcr 198 I The vmpcrarure dcpendencc of the hferlme ofrubrcnc tr~plct (7~) in cthdnol was mrasurcd b) rhc scnsltlzcd dclaycd fluorescence lcchmquc. TR IS I75 psat room tempcraturc and mcTcxes on lowering Ihe WmpcrJtu

The dependence of the F centre generation kinetics in KBr under XeCl excimer laser irradiation in the temperature region from 90 to 370 K has been investigated. The initial coloration rate as well as the equilibrium colour centre density vary nonmonotonously with temperature, being maximal between 1

The triplet lifetime of aromatic hydrocarbons in liquid solution is relativc:jr short compared with the lifetime in a rigid solution. Until now this difference has been exphined by an impurity quenching mechanism. An alternative explanation is given, assuming quenching of a triplet molecule by B sin