Due to the wide application of reporter
gene-related visible/NIR-I
bioluminescent imaging, multiplexed fluorescence imaging across visible/NIR-I/NIR-II
has excellent potential in biomedical research. However, in
vivo multiplexed imaging applications across those regions
have rarely been reported due to the lack of proper fluorophores.
Herein, nine squaraine dyes, which exhibit diverse adsorption and
emission wavelengths, were synthesized. Among them, water-soluble
SQ 710–5k and SQ 905 were found to have significant absorption
differences, which allowed the tumor and lymph nodes to be identified.
Then, for the first time, six-channel multiplexed fluorescence imaging
across visible/NIR-I/II was achieved by coordination with reporter
gene-related bioluminescent phosphors. Additional research revealed
that SQ 710–5k exhibited higher-quality blood vessels and tumor
imaging in NIR-II. H-aggregates SQ 905 demonstrated a high photothermal
conversion efficiency for photothermal therapy. This study proposed
an approach to creating small molecular dyes that coordinate with
reporter gene-related bioluminescent phosphors for six-color fluorescence
imaging.