Absorption and fluorescence spectroscopic investigations of PAC/humic substance-interactions in water

Ute Zimmermann; Hans-Gerd Loehmannsroeben; Thomas Skrivanek

doi:10.1117/12.274738

23 May 1997 Absorption and fluorescence spectroscopic investigations of PAC/humic substance-interactions in water

Ute Zimmermann, Hans-Gerd Loehmannsroeben, Thomas Skrivanek

Author Affiliations +

Proceedings Volume 3107, Remote Sensing of Vegetation and Water, and Standardization of Remote Sensing Methods; (1997) https://doi.org/10.1117/12.274738
Event: Environmental Sensing III, 1997, Munich, Germany

Abstract

Time-resolved emission spectra of humic substances of different origin have been recorded in order to extend our previous spectroscopic characterization of humic and fulvic acids in aqueous solution with stationary UV/Vis-absorption and fluorescence measurements. Instead of applying a fitting procedure, decay times are introduced as simple and robust experimental parameters for the quantitative description of fluorescence decays. The analysis of time-resolved emission spectra indicates a wavelength dependence of the fluorescence investigations of the interactions between pyrene and various humic substances in water. For all humic substances the quenching of pyrene fluorescence is dominated by a static quenching process, i.e. by a ground-state complexation. A significant influence of pH on the fluorescence quenching efficiencies is found, whereas no long-term changes of the interaction between pyrene and a humic substance are discernible. Time-resolved triplet- triplet absorption measurements reveal a decrease of chrysene triplet lifetime due to the presence of humic substances.

Citation Download Citation

Ute Zimmermann, Hans-Gerd Loehmannsroeben, and Thomas Skrivanek "Absorption and fluorescence spectroscopic investigations of PAC/humic substance-interactions in water", Proc. SPIE 3107, Remote Sensing of Vegetation and Water, and Standardization of Remote Sensing Methods, (23 May 1997); https://doi.org/10.1117/12.274738

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