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Quantum confined peptide assemblies with tunable visible to near-infrared spectral range

Author

Listed:
  • Kai Tao

    (Tel Aviv University)

  • Zhen Fan

    (The Ohio State University
    The Ohio State University Wexner Medical Center
    Tongji University)

  • Leming Sun

    (Northwestern Polytechnical University)

  • Pandeeswar Makam

    (Tel Aviv University)

  • Zhen Tian

    (Chinese Academy of Sciences)

  • Mark Ruegsegger

    (The Ohio State University)

  • Shira Shaham-Niv

    (Tel Aviv University)

  • Derek Hansford

    (The Ohio State University)

  • Ruth Aizen

    (Tel Aviv University)

  • Zui Pan

    (University of Texas at Arlington)

  • Scott Galster

    (Rockefeller Neuroscience Institute and Department of Neuroscience, WVU School of Medicine)

  • Jianjie Ma

    (The Ohio State University Wexner Medical Center
    The Ohio State University)

  • Fan Yuan

    (Duke University)

  • Mingsu Si

    (Lanzhou University)

  • Songnan Qu

    (Chinese Academy of Sciences)

  • Mingjun Zhang

    (The Ohio State University
    The Ohio State University Wexner Medical Center
    The Ohio State University)

  • Ehud Gazit

    (Tel Aviv University
    Tel Aviv University)

  • Junbai Li

    (Chinese Academy of Sciences)

Abstract

Quantum confined materials have been extensively studied for photoluminescent applications. Due to intrinsic limitations of low biocompatibility and challenging modulation, the utilization of conventional inorganic quantum confined photoluminescent materials in bio-imaging and bio-machine interface faces critical restrictions. Here, we present aromatic cyclo-dipeptides that dimerize into quantum dots, which serve as building blocks to further self-assemble into quantum confined supramolecular structures with diverse morphologies and photoluminescence properties. Especially, the emission can be tuned from the visible region to the near-infrared region (420 nm to 820 nm) by modulating the self-assembly process. Moreover, no obvious cytotoxic effect is observed for these nanostructures, and their utilization for in vivo imaging and as phosphors for light-emitting diodes is demonstrated. The data reveal that the morphologies and optical properties of the aromatic cyclo-dipeptide self-assemblies can be tuned, making them potential candidates for supramolecular quantum confined materials providing biocompatible alternatives for broad biomedical and opto-electric applications.

Suggested Citation

  • Kai Tao & Zhen Fan & Leming Sun & Pandeeswar Makam & Zhen Tian & Mark Ruegsegger & Shira Shaham-Niv & Derek Hansford & Ruth Aizen & Zui Pan & Scott Galster & Jianjie Ma & Fan Yuan & Mingsu Si & Songna, 2018. "Quantum confined peptide assemblies with tunable visible to near-infrared spectral range," Nature Communications, Nature, vol. 9(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-05568-9
    DOI: 10.1038/s41467-018-05568-9
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