外重原子对荧光动力学的影响

PhysChemComm Pub Date : 2000-01-01 DOI:10.1039/B002307H
M. Santos
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引用次数: 24

摘要

外重原子效应在流体溶液中的荧光猝灭通常遵循简单的Stern?沃尔默动力学,猝灭效应是由双分子猝灭速率常数的大小来衡量的。然而,摄动荧光团的单分子S1→Tn系统间交叉速率常数在摄动器中增加。可以直接与未受干扰的荧光团进行比较的荧光团复合物。从流体溶液中外重原子猝灭的简单模型出发,预测了所有猝灭剂浓度下的衰变规律均为单指数,并得到了扰动荧光团单分子S1→Tn系统间穿越速率常数的新表达式。同样的问题,但在刚性解,也首次讨论。该模型预测了非指数荧光衰减规律,由此可以直接确定受扰动荧光团的单分子S1→Tn系统间交叉速率常数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
External heavy-atom effect on fluorescence kinetics
Fluorescence quenching in fluid solution by the external heavy-atom effect usually follows simple Stern?Volmer kinetics, and the quenching effect is gauged by the magnitude of the bimolecular quenching rate constant. However, it is the increased unimolecular S1→Tn intersystem crossing rate constant of the perturbed fluorophore in the perturber?fluorophore complex that can be directly compared with that of the unperturbed fluorophore. From a simple model for external heavy atom quenching in fluid solution, the decay law is predicted to be singly exponential for all quencher concentrations, and a new expression for the unimolecular S1→Tn intersystem crossing rate constant of the perturbed fluorophore is obtained. The same problem, but in rigid solution, is also discussed for the first time. The model now predicts a nonexponential fluorescence decay law, from which the unimolecular S1→Tn intersystem crossing rate constant of the perturbed fluorophore can be directly determined.
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