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Reactive fungal wearable.

Andrew Adamatzky1, Anna Nikolaidou2, Antoni Gandia3

  • 1Unconventional Computing Laboratory, UWE, Bristol, UK.

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|November 27, 2020
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Fungal wearables made with oyster fungi show electrical responses to stimuli. This research demonstrates their potential for creating intelligent, reactive biowearables.

Keywords:
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Area of Science:

  • Bioelectronics
  • Materials Science
  • Mycology

Background:

  • Smart wearables traditionally use electronic sensors, with recent advances in soft electronics.
  • Organic electronics and bioelectronics, particularly with living substrates, present opportunities for integrating natural sensing and processing capabilities into wearables.
  • Fungi are emerging as sustainable materials for eco-friendly biowearables.

Purpose of the Study:

  • To evaluate the sensing potential of fungal-based wearables.
  • To investigate the electrical response of fungal-colonized fabric to external stimuli.

Main Methods:

  • Laboratory experiments were conducted on hemp fabric colonized by oyster fungi (Pleurotus ostreatus).
  • Electrical responses were measured under mechanical stretching and in response to chemical attractants and repellents.

Main Results:

  • Distinct electrical responses were observed from the fungal-colonized fabric.
  • The nature of the stimuli (mechanical, attractant, repellent) could be differentiated based on the electrical signals detected from the fungi.

Conclusions:

  • Fungal wearables exhibit sensing capabilities.
  • The findings support the development of intelligent sensing patches for reactive biowearables.