Professor Park Jae-young's Team Developed a Flexible Pressure Sensor That Can Monitor Breathing to Walking 

- Development of Ultra-sensitive/Broadband Pressure Sensor Patch Capable of Real-time Monitoring of Various Physical Biosignals -

- Expected to Be Used as a Core Technology for Wearable Smart Medical/health Care, Sports, Robots, and Defense Industries -

- Published Thesis (IF: 18.962) in Elsevier Nano Today, a Renowned International Journal - 

Professor Park Jae-young's team successfully developed a broadband high-performance flexible pressure sensor patch that can accurately detect and monitor various biological signals such as pulse, breathing, voice, and gait in real time. Compared to existing sensors, it is expected to be widely used in wearable smart medical/healthcare, sports, robots, automobiles, and defense industries due to its superior linear range of pressure (0-100 kPa) and sensitivity performance.

<Professor Jaeyoung Park (left) and doctoral student Sudeep (right)>

This research is funded by the Ministry of Trade, Industry and Energy, supported by the Korea Institute for Advancement of Technology's Industrial Innovation Talent Growth Support Project (P0020967) and Industrial Technology Innovation Project (RS-2022-00154983, development of a self-contained power sensor platform for low-power sensors and operation). The research results were published in the March 2023 issue of Nano Today (IF: 18.962) published by Elsivir, the world's leading nanomaterials and device research journal.

Weblink: https://doi.org/10.1016/j.nantod.2022.101698

<Structure and Performance of Ultra-High Sensitivity/Broadband Wearable Pressure Sensor Using Graphene-Polymer Nanocomposite Electrolyte and Ion Nanofiber Polymer Membrane>

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