Abstract
Palladium can cause severe skin and eye irritation once it enters the human body. Ratiometric two-photon fluorescent probes can both eliminate interference from environmental factors and realize deep-tissue imaging with improved spatial localization. To quantitatively track Pd(2+) in biosystems, we report here a colorimetric and two-photon ratiometric fluorescent probe, termed Np-Rh-Pd, which consists of a two-photon fluorophore (naphthalene derivative with a D-π-A structure) and a rhodamine B dye. The two fluorophores are directly linked to form a two-photon ratiometric fluorescent probe for Pd(2+) based on a through-bond energy transfer (TBET) strategy. It exhibits highly efficient energy transfer (90%) with two well-resolved emission peaks (wavelength difference of 100 nm), which could efficiently diminish the cross talk between channels and is especially favorable for ratiometric bioimaging applications. A signal-to-background ratio of 31.2 was observed for the probe, which affords a high sensitivity for Pd(2+) with a detection limit of 2.3 × 10(-7) M. It was also found that acidity does not affect the fluorescent response of the probe to Pd(2+), which is favorable for its applications in practical samples. The probe was further used for fluorescence imaging of Pd(2+) ions in live cells and tissue slices under two-photon excitation, which showed significant tissue-imaging depths (90-270 μm) and a high resolution for ratiometric imaging.
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