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PDMS Device Fabrication and Surface Modification
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Direct Laser Processing and Functionalizing PI/PDMS Composites for an On-Demand, Programmable, Recyclable Device

Jia Zhu1,2,3, Yang Xiao1, Xianzhe Zhang3

  • 1School of Material and Energy, University of Electronic Science and Technology of China, Chengdu, 610054, China.

Advanced Materials (Deerfield Beach, Fla.)
|April 2, 2024
PubMed
Summary
This summary is machine-generated.

This study presents a novel, adhesive biosensing patch made using laser scribing. This skin-interfaced device offers sensitive detection of electrophysiological and biochemical signals for health monitoring without irritation.

Keywords:
bioadhesiveelectrochemical sensorslaser fabricationrecyclable electronicsskin‐interfaced devices

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Area of Science:

  • Materials Science
  • Biomedical Engineering
  • Nanotechnology

Background:

  • Skin-interfaced biosensing systems are crucial for personal health monitoring.
  • Existing systems face challenges with material integration, complex fabrication, weak interfaces, and skin adhesion.
  • These limitations lead to device failure, irritation, and motion artifacts.

Purpose of the Study:

  • To develop a skin-attachable, reprogrammable, and multifunctional adhesive biosensing device patch.
  • To overcome the limitations of current biosensing technologies through a simplified fabrication process.
  • To create a versatile platform for real-time biofluid analysis and electrophysiological signal monitoring.

Main Methods:

  • Fabrication of an adhesive composite patch using laser scribing of polyimide powders and ethoxylated polyethylenimine in a silicone elastomer.
  • Selective functionalization of laser-induced graphene with nanomaterials or enzymes.
  • Integration of sensing, RF energy harvesting, and communication capabilities.

Main Results:

  • A novel, skin-attachable, and adhesive device patch was successfully fabricated via low-cost laser scribing.
  • The laser-induced graphene within the composite allows for selective functionalization, enhancing conductivity and enabling biomarker sensing.
  • The platform demonstrates potential for standalone, stretchable biofluid analysis and electrophysiological monitoring.

Conclusions:

  • The developed laser-scribed adhesive composite patch offers a promising solution for advanced skin-interfaced biosensing.
  • This approach simplifies fabrication and enhances device robustness and functionality.
  • The versatile platform paves the way for integrated, standalone personal health monitoring systems.