Fig. 1. Fluorescence surgical navigation technology

Fig. 2. Open NIR-Ⅱ fluorescence surgical navigation system^[33]

Fig. 3. Chemical structural formula and spectral characteristics of ICG: (a) chemical structural formula of ICG; (b) excitation and NIR-Ⅰ emission spectra of ICG^[36]; (c) NIR-Ⅱ emission spectrum of ICG ^[42]. NIR-Ⅰ and NIR-Ⅱ in vivo imaging of ICG^[42]: (d) mouse brain vascular imaging; (e) mouse leg vascular imaging. (f)(h) in vivo imaging of IR-12N3 as a navigation probe^[43]: (f) mouse leg lymph nodes imaging; (g) mouse lumbar lymph node imaging; (h) tumor imaging

Fig. 4. NIR-Ⅱ fluorescence surgical navigation of ICG: (a) tumor resection guided by ICG NIR-Ⅱ fluorescence surgical navigation in mouse breast cancer model^[50]; in human trials, (b) signal-to-noise ratio of ICG NIR-Ⅱ imaging is higher than that of NIR-Ⅰ imaging, (c) liver cancer resection under ICG NIR-Ⅱ fluorescence surgical navigation^[33]. NIR-Ⅱ cyanine dyes with fluorescence surgical navigation potential for NIR-Ⅱ imaging: (d) comparison of imaging effects of FD-1080 under excitation of different wavelengths^[51]; (e) NIR-Ⅱ imaging of cyanine dye Flav derivative^[52]

Fig. 5. D-A type organic small molecule probe with the potential of fluorescence surgical navigation. (a)(b) D-π-A-π-D type organic small molecule probe and its fluorescence emission spectrum^[53]; (c) NIR-Ⅱ fluorescence imaging of small molecule probe CH1055 in brain glioma model^[54]; (d) NIR-Ⅱ fluorescence in vivo imaging of organic small molecule probe FM1210 in mouse^[56]

Fig. 6. Polymer nanoprobes for NIR-Ⅱ fluorescence imaging. (a) Structures of NIR-Ⅱ polymers P1, P2, and P3^[62]; (b) fluorescence emission spectra of nanoprobes P1-Pdots, P2-Pdots, and P3-Pdots assembled with polymers P1, P2, and P3^[62]; (c) NIR-Ⅱ fluorescence blood vessels imaging of P1-Pdots^[62]; (d) NIR-Ⅱ fluorescence tumor imaging of LNIR-Ⅱ nanoprobe L1057^[63]

Fig. 7. Application of AIE fluorescent nanoprobe. NIR-Ⅱ fluorescence imaging of AIE fluorescent nanoprobe SA-TTB-PEG₁₀₀₀ for mouse (a) and New Zealand rabbit (b) ^[70]; AIE nanoprobe OTPA-BBT for NIR-Ⅱ transcranial blood vessel fluorescence imaging in non-human primates (c) and NIR-Ⅱb gastrointestinal tract fluorescence imaging (d) ^[72]

Fig. 8. Quantum dot for NIR-Ⅱ imaging. (a) Ag₂S quantum dot for NIR-Ⅱ imaging and surgical navigation of brain glioma^[77]; (b)(d) Ag₂S quantum dot for NIR-Ⅱ imaging and surgical navigation of peritoneal metastases^[80]; (e) CISe quantum dot used for NIR-Ⅱ tumor imaging^[81]

Fig. 9. Rare earth nanoprobes for NIR-Ⅱ imaging. (a)(b) DCNPs-L₁-FSH_β/ DCNPs-L₂-FSH_β for NIR-Ⅱ imaging in ovarian cancer metastasis model^[86]; (c) DCNPs-L₁-FSH_β/ DCNPs-L₂-FSH_βfor fluorescence surgical navigation effect display^[86]; (d) NPs@Lips for intestinal NIR-Ⅱb imaging^[88]；(e) NPs@Lips for intraoperative multispectral imaging of intestinal vessels^[88]