College of Material Engineering, Anhui University of Science and Technology, Huainan, Anhui, China.
Guangxi Key Laboratory of Green Processing of Sugar Resources, College of Biological and Chemical Engineering, Guangxi University of Science and Technology, Liuzhou, Guangxi, People's Republic of China.
J Biomater Sci Polym Ed. 2020 May;31(7):938-953. doi: 10.1080/09205063.2020.1731787. Epub 2020 Mar 4.
In this article, bifunctional polyaniline/polyacrylamide (PANI/PAAm) hydrogel is fabricated. The hydrogel has capacitive performance and can be used for monitoring human motions. The effect of PANI doped with two different acids on the properties of hydrogels was researched. The first type of PANI hydrogel is doped with hydrochloric (HCl) and the second one with -toluenesulfonic acid (PTSA). One application of these two kinds of hydrogels was prepared to serve as solid electrolytes in supercapacitors with sandwich structure. The sandwich structure was constructed by introducing two PANI film parts reinforced on both sides of the PANI hydrogel. Supercapacitors with sandwich structure possess areal capacitance of 635 mF/cm (HCl-PANI hydrogel) and 1022 mF/cm (PTSA-PANI hydrogel). In this structure, PANI hydrogel provides channels for ion transport as a solid electrolyte. In addition, the PANI hydrogel can be utilized as the sensitive sensors as well. By employing curve and curve to characterize the performance of the sensor, the hydrogel material can be used as a wearable sensor with sensitivity to slight deformation. This is a sensitive sensor that it can respond to the speed and amplitude of the bending movement of the arm. The effective bifunctional property results indicate that the hydrogel, capacitive and conductive PANI hydrogel has great piezoelectric sensitivity as the sensors, which has become promising materials for wearable sensors and solid electrolytes.
本文制备了一种具有电容性能的双功能聚苯胺/聚丙烯酰胺(PANI/PAAm)水凝胶,可用于监测人体运动。研究了两种不同酸掺杂的 PANI 对水凝胶性能的影响。第一种 PANI 水凝胶掺杂盐酸(HCl),第二种 PANI 水凝胶掺杂对甲苯磺酸(PTSA)。这两种水凝胶的一个应用是用作具有三明治结构的超级电容器的固体电解质。三明治结构由两个 PANI 薄膜部分组成,在 PANI 水凝胶的两侧增强。具有三明治结构的超级电容器的面电容分别为 635 mF/cm(HCl-PANI 水凝胶)和 1022 mF/cm(PTSA-PANI 水凝胶)。在这种结构中,PANI 水凝胶作为固体电解质提供离子传输通道。此外,PANI 水凝胶也可用作敏感传感器。通过采用 曲线和 曲线来表征传感器的性能,该水凝胶材料可用作对轻微变形敏感的可穿戴传感器。这是一种灵敏的传感器,它可以响应手臂弯曲运动的速度和幅度。有效的双功能性能结果表明,作为传感器的电容和导电 PANI 水凝胶具有很大的压电灵敏度,是可穿戴传感器和固体电解质的有前途的材料。
