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    Near‐Infrared Upconversion Luminescence and Bioimaging In Vivo Based on Quantum Dots

    New search for: Qiu, Xiaochen
    New search for: Zhu, Xingjun
    New search for: Su, Xianlong
    New search for: Xu, Ming
    New search for: Yuan, Wei
    New search for: Liu, Qingyun
    New search for: Xue, Meng
    New search for: Liu, Yawei
    New search for: Feng, Wei
    New search for: Li, Fuyou

    Recently, upconversion luminescence (UCL) has been widely applied in bioimaging due to its low autofluorescence and high contrast. However, a relatively high power density is still needed in conventional UCL bioimaging. In the present study, an ultralow power density light, as low as 0.06 mW cm−2, is applied as an excitation source for UCL bioimaging with PbS/CdS/ZnS quantum dots (UCL‐QDs) as probes. The speculated UCL mechanism is a phonon‐assisted single‐photon process, and the relative quantum yield is up to 4.6%. As determined by continuous irradiation with a 980 nm laser, the UCL‐QDs show excellent photostability. Furthermore, UCL‐QDs‐based probe is applied in tumor, blood vessel, and lymph node bioimaging excited with an eye‐safe low‐power light‐emitting diode light in a nude mouse with few heat effects.

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    Near‐Infrared Upconversion Luminescence and Bioimaging In Vivo Based on Quantum Dots

    New search for: Qiu, Xiaochen
    New search for: Zhu, Xingjun
    New search for: Su, Xianlong
    New search for: Xu, Ming
    New search for: Yuan, Wei
    New search for: Liu, Qingyun
    New search for: Xue, Meng
    New search for: Liu, Yawei
    New search for: Feng, Wei
    New search for: Li, Fuyou

    Recently, upconversion luminescence (UCL) has been widely applied in bioimaging due to its low autofluorescence and high contrast. However, a relatively high power density is still needed in conventional UCL bioimaging. In the present study, an ultralow power density light, as low as 0.06 mW cm−2, is applied as an excitation source for UCL bioimaging with PbS/CdS/ZnS quantum dots (UCL‐QDs) as probes. The speculated UCL mechanism is a phonon‐assisted single‐photon process, and the relative quantum yield is up to 4.6%. As determined by continuous irradiation with a 980 nm laser, the UCL‐QDs show excellent photostability. Furthermore, UCL‐QDs‐based probe is applied in tumor, blood vessel, and lymph node bioimaging excited with an eye‐safe low‐power light‐emitting diode light in a nude mouse with few heat effects.

    Access

    Download

    Near‐Infrared Upconversion Luminescence and Bioimaging In Vivo Based on Quantum Dots

    New search for: Qiu, Xiaochen
    New search for: Zhu, Xingjun
    New search for: Su, Xianlong
    New search for: Xu, Ming
    New search for: Yuan, Wei
    New search for: Liu, Qingyun
    New search for: Xue, Meng
    New search for: Liu, Yawei
    New search for: Feng, Wei
    New search for: Li, Fuyou

    Recently, upconversion luminescence (UCL) has been widely applied in bioimaging due to its low autofluorescence and high contrast. However, a relatively high power density is still needed in conventional UCL bioimaging. In the present study, an ultralow power density light, as low as 0.06 mW cm−2, is applied as an excitation source for UCL bioimaging with PbS/CdS/ZnS quantum dots (UCL‐QDs) as probes. The speculated UCL mechanism is a phonon‐assisted single‐photon process, and the relative quantum yield is up to 4.6%. As determined by continuous irradiation with a 980 nm laser, the UCL‐QDs show excellent photostability. Furthermore, UCL‐QDs‐based probe is applied in tumor, blood vessel, and lymph node bioimaging excited with an eye‐safe low‐power light‐emitting diode light in a nude mouse with few heat effects.

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    Download

    Access

    Download

    Page navigation

    Document information
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    Document information
    Title:

    Near‐Infrared Upconversion Luminescence and Bioimaging In Vivo Based on Quantum Dots

    Contributors:

    Qiu, Xiaochen (author) / Zhu, Xingjun (author) / Su, Xianlong (author) / Xu, Ming (author) / Yuan, Wei (author) / Liu, Qingyun (author) / Xue, Meng (author) / Liu, Yawei (author) / Feng, Wei (author) / Li, Fuyou (author)

    Published in:

    Advanced Science ; 6

    Publication date:

    2019-03-01

    Size:

    8 pages

    ISSN:

    2198-3844

    DOI:

    https://doi.org/10.1002/advs.201801834

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    low power , nanoparticles , upconversion luminescence , bioimaging , quantum dots

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