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Flexible Electrodes for Brain-Computer Interface System.

Junjie Wang1, Tengjiao Wang1, Haoyan Liu2

  • 1Frontiers Science Center for Flexible Electronics (FSCFE), Xi'an Institute of Flexible Electronics (IFE) & Xi'an Institute of Biomedical Materials and Engineering (IBME), Northwestern Polytechnical University (NPU), 127 West Youyi Road, Xi'an, Shaanxi, 710072, P. R. China.

Advanced Materials (Deerfield Beach, Fla.)
|May 5, 2023
PubMed
Summary
This summary is machine-generated.

Flexible electrodes are crucial for advancing brain-computer interfaces (BCI). This paper explores their fabrication, highlighting advantages over rigid electrodes for improved BCI applications.

Keywords:
brain disorders diagnosiselectrophysiological techniqueflexible bioelectronicshuman-machine interfacehydrogels

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Area of Science:

  • Neuroscience and Biomedical Engineering
  • Materials Science for Medical Devices

Background:

  • Brain-computer interfaces (BCI) are gaining significant research and investment interest.
  • BCI applications span communication restoration, motor function, psychological treatment, and gaming.
  • Traditional rigid electrodes pose limitations for BCI due to mechanical mismatch and signal degradation.

Purpose of the Study:

  • To review and classify the latest fabrication methods for flexible electrodes used in BCI.
  • To explore the future developmental directions for flexible electrode technology in BCI.
  • To provide perspectives on the advancement of flexible electrodes for BCI applications.

Main Methods:

  • Literature review and classification of flexible electrode fabrication techniques.
  • Analysis of material properties and performance metrics of flexible electrodes.
  • Discussion of current trends and future research avenues in flexible electrode development.

Main Results:

  • Flexible electrodes offer superior conformance and potential for higher signal-to-noise ratio (SNR) compared to rigid types.
  • Advancements in soft materials are enabling wider applications for flexible electrodes in BCI.
  • Key fabrication strategies and their implications for BCI performance are identified.

Conclusions:

  • Flexible electrodes are vital for overcoming the limitations of traditional rigid electrodes in BCI.
  • Continued development in flexible electrode fabrication is essential for the rapid advent of advanced BCI.
  • The future outlook for flexible electrodes in BCI is promising, with potential for enhanced therapeutic and daily applications.