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Mechanically robust amino acid crystals as fiber-optic transducers and wide bandpass filters for optical communication in the near-infrared

Author

Listed:
  • Durga Prasad Karothu

    (New York University Abu Dhabi)

  • Ghada Dushaq

    (New York University Abu Dhabi)

  • Ejaz Ahmed

    (New York University Abu Dhabi)

  • Luca Catalano

    (New York University Abu Dhabi)

  • Srujana Polavaram

    (New York University Abu Dhabi)

  • Rodrigo Ferreira

    (New York University Abu Dhabi)

  • Liang Li

    (New York University Abu Dhabi)

  • Sharmarke Mohamed

    (Khalifa University of Science and Technology)

  • Mahmoud Rasras

    (New York University Abu Dhabi)

  • Panče Naumov

    (New York University Abu Dhabi
    Harvard University)

Abstract

Organic crystals are emerging as mechanically compliant, light-weight and chemically versatile alternatives to the commonly used silica and polymer waveguides. However, the previously reported organic crystals were shown to be able to transmit visible light, whereas actual implementation in telecommunication devices requires transparency in the near-infrared spectral range. Here we demonstrate that single crystals of the amino acid L-threonine could be used as optical waveguides and filters with high mechanical and thermal robustness for transduction of signals in the telecommunications range. On their (00 $$\bar 1$$ 1 ¯ ) face, crystals of this material have an extraordinarily high Young’s modulus (40.95 ± 1.03 GPa) and hardness (1.98 ± 0.11 GPa) for an organic crystal. First-principles density functional theory calculations, used in conjunction with analysis of the energy frameworks to correlate the structure with the anisotropy in the Young’s modulus, showed that the high stiffness arises as a consequence of the strong charge-assisted hydrogen bonds between the zwitterions. The crystals have low optical loss in the O, E, S and C bands of the spectrum (1250−1600 nm), while they effectively block infrared light below 1200 nm. This property favors these and possibly other related organic crystals as all-organic fiber-optic waveguides and filters for transduction of information.

Suggested Citation

  • Durga Prasad Karothu & Ghada Dushaq & Ejaz Ahmed & Luca Catalano & Srujana Polavaram & Rodrigo Ferreira & Liang Li & Sharmarke Mohamed & Mahmoud Rasras & Panče Naumov, 2021. "Mechanically robust amino acid crystals as fiber-optic transducers and wide bandpass filters for optical communication in the near-infrared," Nature Communications, Nature, vol. 12(1), pages 1-8, December.
  • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-21324-y
    DOI: 10.1038/s41467-021-21324-y
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    Cited by:

    1. Xuesong Yang & Linfeng Lan & Xiuhong Pan & Qi Di & Xiaokong Liu & Liang Li & Panče Naumov & Hongyu Zhang, 2023. "Bioinspired soft robots based on organic polymer-crystal hybrid materials with response to temperature and humidity," Nature Communications, Nature, vol. 14(1), pages 1-8, December.
    2. Debasish Barman & Mari Annadhasan & Anil Parsram Bidkar & Pachaiyappan Rajamalli & Debika Barman & Siddhartha Sankar Ghosh & Rajadurai Chandrasekar & Parameswar Krishnan Iyer, 2023. "Highly efficient color-tunable organic co-crystals unveiling polymorphism, isomerism, delayed fluorescence for optical waveguides and cell-imaging," Nature Communications, Nature, vol. 14(1), pages 1-17, December.
    3. Xuesong Yang & Linfeng Lan & Liang Li & Jinyang Yu & Xiaokong Liu & Ying Tao & Quan-Hong Yang & Panče Naumov & Hongyu Zhang, 2023. "Collective photothermal bending of flexible organic crystals modified with MXene-polymer multilayers as optical waveguide arrays," Nature Communications, Nature, vol. 14(1), pages 1-11, December.

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