An algorithm for the accurate calculation of luminescence lifetimes in near-real-time is described. The dynamic rapid lifetime determination (DRLD) method uses a window-summing technique and dynamically selects the appropriate window width for each lifetime decay such that a large range of lifetimes can be accurately calculated. The selection of window width is based on an optimal range of window-sum ratios. The algorithm was compared to alternative approaches for rapid lifetime determination as well as nonlinear least-squares (NLLS) fitting in both simulated and real experimental conditions. A palladium porphyrin was used as a model luminophore to quantitatively evaluate the algorithm in a dynamic situation, where oxygen concentration was modulated to induce a change in lifetime. Unlike other window-summing techniques, the new algorithm calculates lifetimes that are not significantly different than the slower, traditional NLLS. In addition, the computation time required to calculate the lifetime is 4 orders of magnitude less than NLLS and 2 orders less than other iterative methods. This advance will improve the accuracy of real-time measurements that must be made on samples that are expected to exhibit widely varying lifetimes, such as sensors and biosensors.

• 出版日期2012-6-5