Recent Advances in Near‐Infrared‐II Fluorescence Imaging for Deep‐Tissue Molecular Analysis and Cancer Diagnosis

Abstract: Fluorescence imaging with high sensitivity and minimal invasiveness has received tremendous attention, which can accomplish visualized monitoring and evaluation of cancer progression. Compared with the conventional first near‐infrared (NIR‐I) optical window (650–950 nm), fluorescence imaging in the second NIR optical window (NIR‐II, 950–1700 nm) exhibits deeper tissue penetration capability and higher temporal‐spatial resolution with lower background interference for achieving deep‐tissue in vivo imaging and r… Show more

“…3 There is no doubt that fluorophores play important roles here in NIR-II imaging. To date, various types of fluorescent probes in the NIR-II region have been developed for biomedical research, 4 including carbon nanotubes, 5 quantum dots, 6 lanthanide-doped nanoparticles 7 and organic fluorescent probes. 8 Among them, organic fluorophores are the superior alternatives because of their easy processability, tunable optical performances and also favorable biocompatibility.…”

Recent advances in activatable NIR-II organic fluorophores for biomedical applications

“…3 There is no doubt that fluorophores play important roles here in NIR-II imaging. To date, various types of fluorescent probes in the NIR-II region have been developed for biomedical research, 4 including carbon nanotubes, 5 quantum dots, 6 lanthanide-doped nanoparticles 7 and organic fluorescent probes. 8 Among them, organic fluorophores are the superior alternatives because of their easy processability, tunable optical performances and also favorable biocompatibility.…”

Recent advances in activatable NIR-II organic fluorophores for biomedical applications

“…26 Up to now, however, the emission spectra of NIR-I dyes have been rarely studied in the NIR-II region, and to the best of our knowledge, the origin of NIR-II tail emission has never been systematically investigated. Various possible mechanisms including the vibration effect, [27][28][29][30][31] twisted intramolecular charge transfer (TICT), 14,17,[32][33][34] aggregation-induced emission, [35][36][37] etc. were proposed and thus have brought new puzzles for understanding the phenomenon of such a weak red-shifted tail.…”

Origins of near-infrared-II emission tail and fluorescence enhancement of albumin-chaperoned cyanine dyes from a multiscale computational study

“…Then, through collecting, splitting, filtering, and focusing the emitting light path, the excited fluorescence signal enters the photodetector to complete the photoelectric conversion. This is followed by signal amplification, analysis, and processing, to finally obtain the image ( Meng et al, 2022 ). As a promising imaging method, fluorescence imaging has the advantages of high temporal and spatial resolution and few side effects, which cannot be achieved by in vitro imaging at the cell and tissue level.…”

Recent progress of second near-infrared (NIR-II) fluorescence microscopy in bioimaging