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Sustainable environmental remediation via biomimetic multifunctional lignocellulosic nano-framework

Author

Listed:
  • Jinghao Li

    (Texas A&M University
    Texas A&M University
    Texas A&M University)

  • Xiaohan Li

    (Texas A&M University
    Texas A&M University)

  • Yabin Da

    (Texas A&M University)

  • Jiali Yu

    (Texas A&M University
    Texas A&M University)

  • Bin Long

    (Texas A&M University
    Texas A&M University)

  • Peng Zhang

    (Texas A&M University
    Texas A&M University)

  • Christopher Bakker

    (Texas A&M University)

  • Bruce A. McCarl

    (Texas A&M University)

  • Joshua S. Yuan

    (Washington University in St. Louis)

  • Susie Y. Dai

    (Texas A&M University
    Texas A&M University)

Abstract

Chemical pollution threatens human health and ecosystem sustainability. Persistent organic pollutants (POPs) like per- and polyfluoroalkyl substances (PFAS) are expensive to clean up once emitted. Innovative and synergistic strategies are urgently needed, yet process integration and cost-effectiveness remain challenging. An in-situ PFAS remediation system is developed to employ a plant-derived biomimetic nano-framework to achieve highly efficient adsorption and subsequent fungal biotransformation synergistically. The multiple component framework is presented as Renewable Artificial Plant for In-situ Microbial Environmental Remediation (RAPIMER). RAPIMER exhibits high adsorption capacity for the PFAS compounds and diverse adsorption capability toward co-contaminants. Subsequently, RAPIMER provides the substrates and contaminants for in situ bioremediation via fungus Irpex lacteus and promotes PFAS detoxification. RAPIMER arises from cheap lignocellulosic sources, enabling a broader impact on sustainability and a means for low-cost pollutant remediation.

Suggested Citation

  • Jinghao Li & Xiaohan Li & Yabin Da & Jiali Yu & Bin Long & Peng Zhang & Christopher Bakker & Bruce A. McCarl & Joshua S. Yuan & Susie Y. Dai, 2022. "Sustainable environmental remediation via biomimetic multifunctional lignocellulosic nano-framework," Nature Communications, Nature, vol. 13(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-31881-5
    DOI: 10.1038/s41467-022-31881-5
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    Cited by:

    1. Yuan Yu & Chi Ding & Jinna Zhang & Nanqi Ren & Chuyang Y. Tang & Shijie You, 2025. "A filter inspired by deep-sea glass sponges for oil cleanup under turbulent flow," Nature Communications, Nature, vol. 16(1), pages 1-12, December.

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