Time-resolved fluorescence of chloroplast fragments at low temperatures

A red-shift and broadening of the emission of the BIC J-aggregate in glass were observed at low temperatures (4.5 K). To explain the observation a transformation of the excess excitation energy in the bath with disordering of the structure of molecular aggregate is proposed. The characteristic time

The radiative lifetime of free excitons in anthracene is shown to be less than 1.9 ns at 5.4 K and appears to increase with temperature. This is attributed to the super-radiant behavlour predicted for states at the bottom Gf the exciton band.

A new procedure for measuring time-resolved emission spectra has been implemented. This technique has subnanosecond time resolution combined with the sensitivity and dynamic range needed 10 cope with estremely weak luminescence. Using this method the emissions of Cr(NH3)2 (NCS); and Cr(NCS$ in aqueo

The wavelength dependent fluorescence decay properties of bovine prothrombin fragment 1 have been investigated employing a picosecond time-correlated single photon counting technique. All observations are discussed with using the crystal structure (Soriano-Garcia et al., Biochemistry 31:2554-2566, 1

Measurements of the fluoresosnce lifetime of solid benzene (= 83.7 nscat -100°C) indic7ate that the limiting low temperature quantum yield of fluorescence is 0.22. This yi& is virtually identiui with that observed irr dUute low-temperature dispersions of benzene in EPA and hexanc. It therefore appea