QUENCHING OF CHLOROPHYLL FLUORESCENCE BY NITROBENZENE |
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Authors: | G. S. Beddard Sheena Carlin L. Harris G. Porter C. J. Tredwell |
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Affiliation: | Davy Faraday Research Laboratory of The Royal Institution, 21 Albemarle Street, London W1X 4BS, England |
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Abstract: | Abstract—Nitrobenzene quenching of chlorophyll fluorescence in ethanol has been investigated. Steady state relative quantum yields have been measured and fluorescence decay rates were determined using both nanosecond photon counting and picosecond pulses from a mode-locked Nd3+ glass laser. The fluorescence decay is described by 1( t )= I 0 exp (- t/τ−At1/2 ) the form predicted for decay governed by the kinetics of the continuum model of diffusion controlled reactions. From the parameters of the fluorescence decay, the encounter distance is 5–7 A° the mutual diffusion coefficient is 0.62 × 10--5 cm2s-1± 12%. Some of the fluorescence quenching is also attributed to static quenching by a nitrobenzene-chlorophyll, ground-state complex. The equilibrium constant for formation of this ground-state complex was determined to be 4.1 M -1. The combined dynamic and static quenching model allows calculation of quantum yields of fluorescence in good agreement with the experimentally determined quantum yields. |
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