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Biological imaging without autofluorescence in the second near-infrared region 被引量:14
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作者 Shuo Diao Guosong Hong +4 位作者 alexander l. antaris Jeffrey l. Blackbum Kai Cheng Zhen Cheng Hongjie Dai 《Nano Research》 SCIE EI CAS CSCD 2015年第9期3027-3034,共8页
Fluorescence imaging is capable of acquiring anatomical and functional infor- mation with high spatial and temporal resolution. This imaging technique has been indispensable in biological research and disease detectio... Fluorescence imaging is capable of acquiring anatomical and functional infor- mation with high spatial and temporal resolution. This imaging technique has been indispensable in biological research and disease detection/diagnosis. Imaging in the visible and to a lesser degree, in the near-infrared (NIR) regions below 900 nm, suffers from autofluorescence arising from endogenous fluorescent molecules in biological tissues. This autofluorescence interferes with fluorescent molecules of interest, causing a high background and low detection sensitivity. Here, we report that fluorescence imaging in the 1,500-1,700-nm region (termed "NIR-IIb") under 808-nm excitation results in nearly zero tissue autofluorescence, allowing for background-free imaging of fluorescent species in otherwise notoriously autofluorescent biological tissues, including liver. Imaging of the intrinsic fluorescence of individual fluorophores, such as a single carbon nanotube, can be readily achieved with high sensitivity and without autofluorescence background in mouse liver within the 1,500-1,700-nm wavelength region. 展开更多
关键词 FLUORESCENCE imaging second near-infrared nanotechnology AUTOFLUORESCENCE
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