In fluorescence‐based assays, usually a target molecule is captured using a probe conjugated to a capture surface, and then detected using a second fluorescently labeled probe. One of the most common capture surfaces is a magnetic bead. However, magnetic beads exhibit strong autofluorescence, which often overlaps with the emission of the reporter fluorescent dyes and limits the analytical performance of the assay. Here, several widely used magnetic beads are photobleached and their autofluorescence is reduced to 1% of the initial value. Their autofluorescence properties, including their photobleaching decay rates and autofluorescence spectra pre‐ and post‐photobleaching, and the stability of the photobleaching over a period of two months are analyzed. The photobleached beads are stable over time and their surface functionality is retained. In a high‐sensitivity LX‐200 system using photobleached magnetic beads, human interleukin‐8 is detected with a threefold improvement in detection limit and signal‐to‐noise ratio over results achievable with nonbleached beads. Since many contemporary immunoassays rely on magnetic beads as capture surfaces, prebleaching the beads may significantly improve the analytical performance of these assays. Moreover, nonmagnetic beads with low autofluorescence are also successfully photobleached, suggesting that photobleaching can be applied to various capture surfaces used in fluorescence‐based assays.
In fluorescence‐based assays, the autofluorescence of capture surfaces produces strong background noise. In article number https://doi.org/10.1002/smll.201803751, Amos Danielli and co‐workers use photobleaching as a method to reduce the autofluorescence of magnetic beads, a commonly used capture surface. The technique yields a 3‐fold improvement in the limit of detection and signal‐to‐noise ratio of a fluorescence‐based immunoassay.
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