BIOSIGNAL SENSING ELECTRODE

Organization Name

Murata Manufacturing Co., Ltd.

Inventor(s)

Brendan Boyce Murphy of Nagaokakyo-shi (JP)

Nicolette Driscoll of Ambler PA (US)

Flavia Vitale of Wilmington DE (US)

Kosuke Sugiura of Nagaokakyo-shi (JP)

Mika Fujiwaki of Nagaokakyo-shi (JP)

Takeshi Torita of Nagaokakyo-shi (JP)

BIOSIGNAL SENSING ELECTRODE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18435310 titled 'BIOSIGNAL SENSING ELECTRODE

Simplified Explanation

The biosignal sensing electrode described in the patent application includes a substrate with a conductive film containing particles of a layered material oriented parallel to the substrate surface. The conductive film is covered by a protective material made of a polymer with specific functional groups, bonding to the particles of the layered material.

• The electrode includes a substrate with a conductive film containing particles of a layered material.
• The conductive film is covered by a protective material made of a polymer with specific functional groups.
• The protective material bonds to the particles of the layered material, exposing at least a part of the conductive film.

Potential Applications

This technology could be used in various medical devices for biosignal monitoring, such as ECG electrodes, EMG electrodes, or EEG electrodes.

Problems Solved

This technology provides improved durability and reliability for biosignal sensing electrodes, as the protective material enhances the stability of the conductive film and prevents degradation over time.

Benefits

The use of this biosignal sensing electrode can lead to more accurate and consistent biosignal measurements, improving the overall performance of medical devices and enhancing patient care.

Potential Commercial Applications

"Enhancing Biosignal Sensing Electrodes for Medical Devices"

Possible Prior Art

There may be prior art related to biosignal sensing electrodes with protective coatings or layered materials for improved performance and durability.

Unanswered Questions

How does this technology compare to existing biosignal sensing electrodes in terms of sensitivity and signal quality?

The article does not provide a direct comparison with existing biosignal sensing electrodes in terms of sensitivity and signal quality. Further research or testing may be needed to evaluate these aspects.

What is the cost-effectiveness of implementing this technology in mass-produced medical devices?

The article does not address the cost-effectiveness of implementing this technology in mass-produced medical devices. A cost analysis or comparison with alternative solutions would be necessary to determine the economic viability of widespread adoption.

Original Abstract Submitted

A biosignal sensing electrode, including: a substrate; a conductive film on the substrate, the conductive film containing particles of a layered material containing one or plural layers, the one or plural layers being oriented parallel to a surface of the substrate and containing a layer body represented by: MX, with a modifier or terminal T existing on a surface of the layer body; and a protective material containing a polymer having C═O and at least one of OH and NH as a functional group covering at least an edge of the conductive film, the functional group being bonded to the particles of the layered material, and at least a part of the second face of the conductive film is exposed from the protective material.