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Hyperthermophilic archaea are a group of extremophiles thriving at temperatures above 80°C, often in hydrothermal vents and volcanic soils where conditions surpass the boiling point of water. At such temperatures, proteins, membranes, and DNA in most organisms degrade, but hyperthermophiles have evolved remarkable adaptations to maintain stability and function.Unique Cellular FeaturesHyperthermophilic membranes are composed of a monolayer of biphytanyl tetraether lipids, which resist...
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A Simple and Scalable Fabrication Method for Organic Electronic Devices on Textiles
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Pyroprotein-Based Electronic Textiles with High Stability.

Jun Woo Jeon1, Se Youn Cho2, Yu Jin Jeong1

  • 1Department of Physics, Incheon National University, Incheon, 406-772, Republic of Korea.

Advanced Materials (Deerfield Beach, Fla.)
|November 30, 2016
PubMed
Summary
This summary is machine-generated.

New electronic textiles (e-textiles) use graphene oxide and pyroproteins like silk without chemicals. These durable e-textiles maintain conductivity under various conditions, including washing and bending.

Keywords:
electronic textilesgraphene oxidespyroproteins

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Area of Science:

  • Materials Science
  • Textile Engineering
  • Nanotechnology

Background:

  • Development of advanced electronic textiles (e-textiles) is crucial for wearable technology.
  • Existing fabrication methods often involve harsh chemicals and complex processes.
  • Need for sustainable and robust materials in e-textile production.

Purpose of the Study:

  • To develop a novel method for fabricating thermally reducible pyroprotein-based electronic textiles (e-textiles).
  • To investigate the use of graphene oxide and natural pyroproteins (cocoon silk, spider web) without chemical agents.
  • To evaluate the electrical conductivity and durability of the fabricated e-textiles.

Main Methods:

  • Fabrication of e-textiles using graphene oxide and pyroproteins (cocoon silk, spider web) via thermal reduction.
  • Characterization of electrical conductivity using standard measurement techniques.
  • Testing of conductivity under mechanical stress (bending) and environmental variations (washing, temperature).

Main Results:

  • Successfully fabricated pyroprotein-based e-textiles without chemical agents.
  • Achieved an electrical conductivity of 11.63 S cm-1.
  • Demonstrated stable electrical conductivity despite bending, washing, and temperature fluctuations.

Conclusions:

  • Thermally reducible pyroprotein-based e-textiles offer a sustainable and effective alternative.
  • The developed fabrication method yields robust e-textiles with reliable electrical properties.
  • These e-textiles show significant potential for applications in flexible electronics and wearable devices.