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Wearable and Flexible Sensor Devices: Recent Advances in Designs, Fabrication Methods, and Applications.

Shahid Muhammad Ali1,2, Sima Noghanian3, Zia Ullah Khan4

  • 1Department of Engineering and Technology, School of Computing and Engineering, University of Huddersfield, Queensgate, Huddersfield HD1 3DH, UK.

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Summary

Wearable sensor devices offer real-time healthcare through wireless body area networks (WBANs). Recent advancements in fabrication methods like direct ink writing enable next-generation flexible and stretchable sensors for diverse applications.

Keywords:
DIW and DW fabrication methodsWBANwearable devices

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Area of Science:

  • Materials Science
  • Biomedical Engineering
  • Electrical Engineering

Background:

  • Wearable sensor devices provide real-time healthcare via wireless body area networks (WBANs).
  • These devices offer advantages like flexibility, low power, and cost-effectiveness, crucial for healthcare, sports, and monitoring.
  • Designing wearable sensors is challenging due to the irregular human body shape.

Purpose of the Study:

  • To review recent advancements in wearable and flexible smart sensor devices.
  • To explore fabrication methods, including direct ink writing (DIW) and direct writing (DW), for next-generation sensors.
  • To inform academia and industry about cutting-edge technologies and fabrication tools for WBAN sensors.

Main Methods:

  • Comprehensive literature review of wearable and flexible smart sensor devices.
  • Analysis of direct ink writing (DIW) and direct writing (DW) fabrication techniques.
  • Overview of fabrication methods and evaluation using body phantoms for WBAN sensors.

Main Results:

  • Highlighting advancements in wearable and flexible smart sensor devices.
  • Showcasing DIW and DW methods for creating high-resolution, integrated smart structures.
  • Presenting progress in fabrication techniques and evaluation strategies for WBAN sensors.

Conclusions:

  • Wearable sensors are vital for real-time healthcare and various applications.
  • Advanced fabrication methods are enabling sophisticated, adaptable sensor designs.
  • Future research should address emerging challenges in wearable sensor technology.