ANALYTE SENSOR

Organization Name

PercuSense, Inc.

Inventor(s)

KATHERINE Wolfe of DUNWOODY GA (US)

ANALYTE SENSOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240041359 titled 'ANALYTE SENSOR

Simplified Explanation

The disclosed patent application describes a sensor assembly consisting of two analyte sensors formed on separate substrates. The first analyte sensor is connected to the second analyte sensor within a defined coupling area where they overlap.

• The first analyte sensor and the second analyte sensor are formed on different substrates.
• The first analyte sensor and the second analyte sensor are connected within a specific coupling area.
• The coupling area is defined by the overlap between the first analyte sensor and the second analyte sensor.

Potential Applications:

• Medical diagnostics: The sensor assembly can be used in medical devices for monitoring analytes in bodily fluids, such as glucose levels in diabetes management.
• Environmental monitoring: The sensor assembly can be utilized in environmental sensors to detect and measure specific analytes in air or water quality monitoring.

Problems Solved:

• Integration: The coupling of the first and second analyte sensors allows for improved integration and compactness of the sensor assembly.
• Sensitivity: The overlap between the sensors enhances the sensitivity and accuracy of analyte detection by reducing noise and interference.

Benefits:

• Enhanced performance: The coupling area between the sensors improves the overall performance and reliability of the sensor assembly.
• Miniaturization: The compact design achieved through the coupling of sensors enables the development of smaller and more portable devices.
• Versatility: The sensor assembly can be adapted for various applications by selecting different analyte sensors and substrates.

Original Abstract Submitted

in one embodiment, a sensor assembly is disclosed. the sensor assembly includes a first analyte sensor being formed on a first substrate and a second analyte sensor being formed on a second substrate. wherein the first analyte sensor is coupled to the second analyte sensor within a coupling area defined by an overlap between the first analyte sensor and the second analyte sensor.