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A Highly Sensitive and Flexible Capacitive Pressure Sensor Based on Alignment Airgap Dielectric

Sensors (Basel). 2022 Sep 28;22(19):7390. doi: 10.3390/s22197390.

Abstract

Flexible capacitive pressure sensors with a simple structure and low power consumption are attracting attention, owing to their wide range of applications in wearable electronic devices. However, it is difficult to manufacture pressure sensors with high sensitivity, wide detection range, and low detection limits. We developed a highly sensitive and flexible capacitive pressure sensor based on the porous Ecoflex, which has an aligned airgap structure and can be manufactured by simply using a mold and a micro-needle. The existence of precisely aligned airgap structures significantly improved the sensor sensitivity compared to other dielectric structures without airgaps. The proposed capacitive pressure sensor with an alignment airgap structure supports a wide range of working pressures (20-100 kPa), quick response time (≈100 ms), high operational stability, and low-pressure detection limit (20 Pa). Moreover, we also studied the application of pulse wave monitoring in wearable sensors, exhibiting excellent performance in wearable devices that detect pulse waves before and after exercise. The proposed pressure sensor is applicable in electronic skin and wearable medical assistive devices owing to its excellent functional features.

Keywords: alignment airgap dielectric; capacitive pressure sensor; flexible sensor; high sensitivity.

MeSH terms

  • Monitoring, Physiologic
  • Porosity
  • Pressure
  • Wearable Electronic Devices*

Grants and funding

This study has been conducted with the support of the Korea Institute of Industrial Technology as “Development of core technology for smart wellness care based on cleaner production process technology (Kitech-PEH22010)”.