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Ionic liquid-based click-ionogels.

Yongyuan Ren1, Jiangna Guo1, Ziyang Liu1

  • 1Department of Polymer Science and Engineering, College of Chemistry, Chemical Engineering and Materials Science, Soochow University, Suzhou, 215123, China.

Science Advances
|August 31, 2019
PubMed
Summary
This summary is machine-generated.

Researchers developed robust ionic liquid (IL)-based click-ionogels with excellent freeze and heat resistance. These advanced gels offer superior mechanical properties for flexible energy storage and sensor applications.

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Area of Science:

  • Materials Science
  • Polymer Chemistry
  • Electrochemistry

Background:

  • Gels with freeze-resistance, heat-resistance, and high tensile strength are crucial for flexible devices.
  • Ionic liquids (ILs) offer unique properties beneficial for advanced material development.

Purpose of the Study:

  • To fabricate robust ionic liquid (IL)-based click-ionogels using a simple method.
  • To evaluate the mechanical properties, resilience, and thermal stability of the synthesized click-ionogels.
  • To explore the potential applications of these click-ionogels in device design.

Main Methods:

  • Fabrication of IL-based click-ionogels via thiol-ene click chemistry under mild conditions.
  • Mechanical testing, including 10,000 fatigue cycles, to assess durability.
  • Evaluation of ionic conductivity, transparency, and nonflammability across a wide temperature range (-75°C to 340°C).
  • Testing of click-ionogel-based triboelectric nanogenerators for stability.

Main Results:

  • The synthesized click-ionogels demonstrated excellent mechanical properties and resilience after extensive fatigue cycling.
  • The click-ionogels exhibited high ionic conductivity, transparency, and nonflammability over a broad temperature range.
  • Click-ionogel-based triboelectric nanogenerators showed remarkable mechanical, freeze-thaw, and heat stability.

Conclusions:

  • A straightforward method for producing high-performance, stable click-ionogels was established.
  • These click-ionogels possess properties suitable for advanced applications in flexible energy storage, actuators, and sensors.
  • The developed click-ionogels show significant promise for the design of innovative, safe, and durable flexible devices.