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Highly stretchable electroluminescent device based on copper nanowires electrode.

Phuong Tran1, Nguyen-Hung Tran2, Ji-Hoon Lee3

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Summary

Researchers developed a new, cost-effective method for creating stretchable electroluminescent devices using copper nanowires. These devices maintain performance under significant stretching and various deformations, ideal for wearable electronics.

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Area of Science:

  • Materials Science
  • Electrical Engineering
  • Nanotechnology

Background:

  • Stretchable electroluminescent (EL) devices are highly sought after for displays and lighting.
  • Current fabrication methods for stretchable EL devices are often complex, costly, and not easily scalable.

Purpose of the Study:

  • To develop a simple, cost-effective, and scalable solution-processed method for fabricating high-performance stretchable alternative current electroluminescent (ACEL) devices.
  • To demonstrate the potential of copper nanowires (Cu NWs) as electrodes in these stretchable ACEL devices.

Main Methods:

  • An all solution-processed fabrication technique was employed using copper nanowires (Cu NWs) as electrodes.
  • The electrical stability of Cu NW electrodes was tested under repeated stretching cycles (1000 cycles at 30% strain).
  • The performance of the ACEL device was evaluated under various deformations, including 100% tensile strain, bending, folding, rolling, and twisting.

Main Results:

  • Cu NW-based electrodes showed excellent stability, with less than 10% resistance change after 1000 stretching cycles at 30% strain.
  • The electrode resistance variation remained below 1% during stretching and releasing cycles even after 1000 cycles.
  • The ACEL device retained significant luminance (97.6 cd/m²) at 100% tensile strain and operated effectively under diverse deformations.

Conclusions:

  • This study presents the first demonstration of using Cu NWs in stretchable ACEL devices.
  • The developed all solution-processed method offers a promising pathway for cost-effective electrode materials in wearable electronics.
  • The high performance and durability under strain make these devices suitable for advanced wearable electronic applications.