医疗保健应用的甘氨酸柔性生物相容性压电压力传感器

Ensieh S. Hosseini, Libu Manjakkal, D. Shakthivel, R. Dahiya
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引用次数: 2

摘要

利用氨基酸甘氨酸分子在天然壳聚糖聚合物内自组装制备生物相容性柔性压电复合材料。压电复合薄膜由嵌入壳聚糖基体的甘氨酸球粒结构构成。x射线衍射证实了复合材料内部稳定的$\beta$ -甘氨酸的结晶,因此具有压电性质。因此,采用简单的溶剂铸造技术制备了具有显著压电响应的可生物降解$\beta$ -甘氨酸/壳聚糖复合材料。结果表明,该压电传感器可以精确测量0-40 kPa范围内的压力,灵敏度为$\sim 4.7$ mV kPa $^{-1}$。基于生物基功能材料(如甘氨酸)的设备为一次性可穿戴健康应用(如监测压缩绷带中的压力)提供了巨大的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Glycine-based Flexible Biocompatible Piezoelectric Pressure Sensor for Healthcare Applications
This work presents biocompatible flexible piezoelectric composite fabricated by self-assembly of amino acid glycine molecules inside natural chitosan polymer. Piezoelectric composite film consists of glycine spherulite structure embedded in chitosan matrix. The x-ray diffraction confirms the crystallization of stable $\beta$-glycine inside the composite and hence its piezoelectric nature. As a result, a simple solvent-casting technique have been used to fabricate the biodegradable composite of $\beta$-glycine/chitosan with significant piezoelectric response. We show that the piezoelectric sensor can precisely measure pressure in the range of 0-40 kPa with sensitivity of $\sim 4.7$ mV kPa$^{-1}$. The devices based on bio-based functional material such as glycine offer huge potential for disposable wearable health applications such as monitoring the pressure in a compression bandage.
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