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Ultrafast photochemistry produces superbright short-wave infrared dots for low-dose in vivo imaging

Author

Listed:
  • Harrisson D. A. Santos

    (Universidad Autónoma de Madrid
    Instituto de Física, Universidade Federal de Alagoas)

  • Irene Zabala Gutiérrez

    (Universidad Complutense de Madrid)

  • Yingli Shen

    (Universidad Autónoma de Madrid)

  • José Lifante

    (Hospital Ramón y Cajal
    Universidad Autónoma de Madrid)

  • Erving Ximendes

    (Universidad Autónoma de Madrid
    Hospital Ramón y Cajal)

  • Marco Laurenti

    (Universidad Complutense de Madrid
    Hospital Ramón y Cajal)

  • Diego Méndez-González

    (Universidad Complutense de Madrid)

  • Sonia Melle

    (Complutense University of Madrid)

  • Oscar G. Calderón

    (Complutense University of Madrid)

  • Enrique López Cabarcos

    (Universidad Complutense de Madrid)

  • Nuria Fernández

    (Hospital Ramón y Cajal
    Universidad Autónoma de Madrid)

  • Irene Chaves-Coira

    (Universidad Autónoma de Madrid)

  • Daniel Lucena-Agell

    (Consejo Superior de Investigaciones Cientificas CIB–CSIC)

  • Luis Monge

    (Hospital Ramón y Cajal
    Universidad Autónoma de Madrid)

  • Mark D. Mackenzie

    (Heriot-Watt University)

  • José Marqués-Hueso

    (Heriot-Watt University)

  • Callum M. S. Jones

    (Heriot-Watt University)

  • Carlos Jacinto

    (Instituto de Física, Universidade Federal de Alagoas)

  • Blanca Rosal

    (Swinburne University of Technology)

  • Ajoy K. Kar

    (Heriot-Watt University)

  • Jorge Rubio-Retama

    (Universidad Complutense de Madrid
    Hospital Ramón y Cajal)

  • Daniel Jaque

    (Universidad Autónoma de Madrid
    Hospital Ramón y Cajal)

Abstract

Optical probes operating in the second near-infrared window (NIR-II, 1,000-1,700 nm), where tissues are highly transparent, have expanded the applicability of fluorescence in the biomedical field. NIR-II fluorescence enables deep-tissue imaging with micrometric resolution in animal models, but is limited by the low brightness of NIR-II probes, which prevents imaging at low excitation intensities and fluorophore concentrations. Here, we present a new generation of probes (Ag2S superdots) derived from chemically synthesized Ag2S dots, on which a protective shell is grown by femtosecond laser irradiation. This shell reduces the structural defects, causing an 80-fold enhancement of the quantum yield. PEGylated Ag2S superdots enable deep-tissue in vivo imaging at low excitation intensities (

Suggested Citation

  • Harrisson D. A. Santos & Irene Zabala Gutiérrez & Yingli Shen & José Lifante & Erving Ximendes & Marco Laurenti & Diego Méndez-González & Sonia Melle & Oscar G. Calderón & Enrique López Cabarcos & Nur, 2020. "Ultrafast photochemistry produces superbright short-wave infrared dots for low-dose in vivo imaging," Nature Communications, Nature, vol. 11(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-16333-2
    DOI: 10.1038/s41467-020-16333-2
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