Development of P-Phenylvinyl-Derived Near-Infrared Two-Photon Luorescent Dyes and Nucleus-Specific Fluorescent Probes

PPV, an early air-stable conjugated polymer, is widely used in organic electronics and bioimaging due to its simple structure and UV-Vis spectral properties. This chapter explores the design, synthesis, and potential applications of near-infrared two-photon fluorescent dyes derived from PPV. Small molecule dyes (HO-PPV-X) with improved water solubility and strong push-pull structures were created by modifying PPV. Three synthesized dyes, HO-PPV-3CN, HO-PPV-MePy, and HO-PPV-EtBT, showed good solubility and near-infrared fluorescence. Live-cell imaging revealed different cellular localization: HO-PPV-3CN stained cytoplasm, HO-PPV-MePy stained the whole cell, and HO-PPV-EtBT targeted the nucleus. These findings suggest potential for developing fluorescent probes and diagnostic reagents with specific subcellular localization functions, especially HO-PPV-EtBT for nuclear staining.