胶粘剂
材料科学
激光器
激光扫描
光电子学
光学
复合材料
物理
图层(电子)
作者
Hao Yang,Rui M. R. Pinto,Pedro González‐Losada,Mohammadmahdi Faraji,Rosana A. Dias,K. B. Vinayakumar
标识
DOI:10.1109/jsen.2024.3368701
摘要
The growing demand for continuous cardiac signal monitoring has propelled the development of highly sensitive flexible sensors with reduced power requirements. Proposed flexible ferroelectrets/piezoelectrets are voided polymers that can be polarized/poled, acquiring a piezoelectric behavior that is suited for sensing applications. Here, ferroelectret preparation was achieved by laser-patterning of an adhesive-coated polypropylene (PP) spacer with low Young’s modulus, resulting in improved piezoelectric coefficient while avoiding high-temperature thermal bonding between the different ferroelectret layers. The spacer pattern and thickness were optimized and compared to a suitable analytical model. The optimized piezoelectret showed a low compressive modulus (~300 kPa), a maximum dynamic piezoelectric coefficient ${d}_{{33}}$ = 81 ± 5 pC/N, and a quasi-static piezoelectric coefficient of ~8552 pC/N. In the short term, the sensors were stable in a wide range of temperature and relative humidity, but after 70 days at room temperature, the ${d}_{{33}}$ decreased to ~36% of the initial value. Finally, the optimized ferroelectret device was demonstrated in the measurement of the human pulse and extraction of cardiovascular parameters [heart rate (HR) and carotid-femoral pulse wave velocity (PWV)].
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