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Conducting hydrogels for edible electrodes.

Alex Keller1, Jonathan Pham, Holly Warren

  • 1Soft Materials Group, School of Chemistry, University of Wollongong, Wollongong, NSW 2522, Australia.

Journal of Materials Chemistry. B
|April 9, 2020
PubMed
Summary
This summary is machine-generated.

Researchers developed conductive, edible hydrogels from gellan gum and gelatin. These ionic-covalent entanglement (ICE) gels show promise for edible electronics and sensing applications, including detecting digestive pressure abnormalities.

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Area of Science:

  • Materials Science
  • Biomedical Engineering
  • Food Science

Background:

  • Advancing edible device research requires highly swollen, strong, and conductive hydrogel materials.
  • Existing materials often lack the necessary properties for safe and effective integration into edible electronics.

Purpose of the Study:

  • To develop a simple method for producing conductive, edible hydrogels using gellan gum and gelatin.
  • To evaluate the electrical properties of various food-grade products as potential edible electrodes.
  • To demonstrate a functional edible capacitive pressure sensor for potential gastrointestinal applications.

Main Methods:

  • Fabrication of gellan gum/gelatin ionic-covalent entanglement (ICE) hydrogels with incorporated NaCl or CsCl.
  • Measurement of hydrogel conductivity.
  • Analysis of electrical properties of food-grade materials (alginate-gelatin hydrogels, Vegemite, Marmite, jelly, gold leaf).
  • Construction and testing of an edible capacitive pressure sensor using ICE gels.

Main Results:

  • ICE gels with NaCl and CsCl achieved conductivities of 200 ± 20 mS cm⁻¹ and 380 ± 30 mS cm⁻¹, respectively.
  • Alginate-gelatin hydrogels, Vegemite, Marmite, jelly, and gold leaf were assessed for their electrical properties as potential edible electrodes.
  • The developed edible capacitive pressure sensor exhibited a sensitivity of 0.80 ± 0.06 pF kPa⁻¹ within a 4-20 kPa range.

Conclusions:

  • Conductive, edible hydrogels can be successfully fabricated using a gellan gum/gelatin ICE approach.
  • The developed hydrogels and tested food-grade materials show potential for creating edible electronic devices.
  • The edible pressure sensor demonstrates feasibility for detecting physiological pressures within the gastrointestinal tract, potentially aiding in diagnosing motility disorders.