报告摘要 | Indocyanine polymethines are among the most clinically promising probes for fluorescence imaging. Longer wavelength NIR-II probes offer enhanced fluorescence imaging performance by improving the tissue penetration depth and signal-to-noise ratio (SNR), but this often results in reduced brightness. Despite multiple attempts to redshift their wavelengths, their emission wavelengths are restricted to 1103 nm. We report the first indocyanine polymethines, Cy15s, emitting beyond 1200 nm, with the longest maximum peak emission at 1287 nm while maintaining a high brightness of 117.1 M-1·cm-1 in DCM, 6-fold of the best performance of polymethine fluorophores emitting over 1200 nm. The low cytotoxicity and remarkable optical properties enable high-quality NIR-IIb angiography and long-term orthotopic tumor imaging. In addition to the relatively mature terminal groups research of polymethines, this study introduces a novel scaffold for conjugation chains, opening new avenues for the design and synthesis of NIR-II probes for deep-tissue imaging and tumor research. |
