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A Stretchable Electromagnetic Absorber Fabricated Using Screen Printing Technology.

Heijun Jeong1, Sungjoon Lim2

  • 1School of Electrical and Electronics Engineering, College of Engineering, Chung-Ang University, 221 Heukseok-dong, Dongjak-gu, Seoul 156-756, Korea. jhijun000015@gmail.com.

Sensors (Basel, Switzerland)
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PubMed
Summary
This summary is machine-generated.

This study presents a screen-printed, stretchable electromagnetic absorber using polydimethylsiloxane (PDMS). The flexible absorber achieves 99% absorption, with minimal frequency shifts when stretched, showcasing its adaptability.

Keywords:
absorberelectromagneticscreen printingstretchable

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Area of Science:

  • Materials Science
  • Electrical Engineering
  • Electromagnetics

Background:

  • Electromagnetic absorbers are crucial for reducing signal interference and enhancing device performance.
  • Developing stretchable and flexible absorbers is essential for wearable electronics and conformal applications.
  • Screen printing offers a scalable and cost-effective fabrication method for electronic components.

Purpose of the Study:

  • To propose and fabricate a novel stretchable electromagnetic absorber using screen printing technology.
  • To investigate the electromagnetic absorption characteristics of the fabricated absorber under mechanical strain.
  • To evaluate the performance of the stretchable absorber for potential applications in flexible electronics.

Main Methods:

  • Fabrication of a stretchable absorber using a polydimethylsiloxane (PDMS) substrate and a stretchable silver conductive ink (DuPont PE872) via screen printing.
  • Design of the absorber as a rectangular patch unit cell with a ground plane.
  • Measurement of the reflection coefficient using a vector network analyzer and a waveguide.
  • Experimental testing of the absorber's performance before and after stretching along different directions.

Main Results:

  • The fabricated stretchable electromagnetic absorber demonstrated high absorption (99%).
  • Stretching the absorber along the x-direction caused a minor resonant frequency shift from 11 GHz to 10.9 GHz.
  • Stretching along the y-direction resulted in a resonant frequency shift from 11 GHz to 10.4 GHz, maintaining 99% absorption.
  • The polydimethylsiloxane (PDMS) substrate provided good dielectric properties, flexibility, and restoring capabilities.

Conclusions:

  • A functional stretchable electromagnetic absorber was successfully fabricated using screen printing technology.
  • The proposed absorber exhibits excellent absorption performance and maintains its functionality under mechanical strain.
  • The material properties of PDMS and the screen printing technique are suitable for creating adaptable electromagnetic absorbers for advanced applications.