Multifunctional PVA/PNIPAM conductive hydrogel sensors enabled human-machine interaction intelligent rehabilitation training

IF 23.2 2区 材料科学 Q1 MATERIALS SCIENCE, COMPOSITES Advanced Composites and Hybrid Materials Pub Date : 2024-11-18 DOI:10.1007/s42114-024-01066-3
Yanlong Zhao, Xichong Zhang, Yilin Hao, Yinghe Zhao, Peng Ding, Wei Zhai, Kun Dai, Guoqiang Zheng, Chuntai Liu, Changyu Shen
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Abstract

Hydrogels are regarded as an ideal medium for human-machine interaction (HMI) due to their adjustable modulus and flexibility, enabling seamless interaction with smart devices. However, in the field of medical rehabilitation, most of the hydrogel-based sensors are simply used to detect the motion signals of fragments and are rarely applied to help patients with rehabilitation training and improve the efficiency of doctors’ diagnosis. This is due to the unstable sensing properties and poor mechanical properties of most hydrogels. The poor durability greatly limits the application of hydrogel-based sensors. Here, a conductive hydrogel sensor with visual temperature sensitivity and good mechanical properties (300% strain, breaking stress 0.19 MPa) is fabricated by introducing polyvinyl alcohol (PVA)-borax system combined with a freeze-thaw physical regulation strategy. The PVA/PNIPAM/PEDOT: PSS (PPP) hydrogels possess a rapid response/recovery time (200 ms/200 ms), a low detection limit of 1% strain, and good stability and durability. Furthermore, by integrating the hydrogels with a LabVIEW circuit program and wireless transmission technology, we have created an advanced intelligent HMI system that facilitates monitoring, rehabilitation training, and remote diagnosis.

Graphical Abstract

The conductive hydrogel sensor with visual temperature-sensitive change and excellent mechanical properties has been successfully prepared by introducing PVA-borax system and freeze-thaw physical regulation strategy. The breaking strain of PVA/PNIPAM/PEDOT: PSS hydrogels achieves 300%, and the breaking stress achieves 0.19 MPa. As a strain sensor, due to the presence of the conductive polymer PEDOT: PSS, PPP hydrogel has a fast response/recovery time (200 ms / 200 ms), a low detection limit of 1% strain, and good stability and durability, enabling accurate monitoring of various human movements. By further combining PPP hydrogel sensor with the LabVIEW circuit program and wireless transmission technology, an advanced intelligent HMI system integrating monitoring, rehabilitation training and remote diagnosis has been constructed.

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支持人机互动智能康复训练的多功能 PVA/PNIPAM 导电水凝胶传感器
水凝胶具有可调节的模量和柔韧性,可与智能设备实现无缝互动,因此被视为人机交互(HMI)的理想媒介。然而,在医疗康复领域,大多数基于水凝胶的传感器只是用来检测碎片的运动信号,很少应用于帮助病人进行康复训练和提高医生诊断的效率。这是因为大多数水凝胶的传感性能不稳定,机械性能差。耐用性差极大地限制了水凝胶传感器的应用。本文通过引入聚乙烯醇(PVA)-硼砂体系并结合冻融物理调节策略,制备了一种具有视觉温度灵敏度和良好机械性能(300%应变,断裂应力0.19兆帕)的导电水凝胶传感器。PVA/PNIPAM/PEDOT:PPP)水凝胶具有快速响应/恢复时间(200 毫秒/200 毫秒)、1% 应变的低检测限以及良好的稳定性和耐久性。此外,通过将水凝胶与 LabVIEW 电路程序和无线传输技术相结合,我们创建了一种先进的智能人机界面系统,为监测、康复训练和远程诊断提供了便利。 图文摘要 通过引入 PVA-borax 系统和冻融物理调节策略,成功制备了具有视觉温敏变化和优异机械性能的导电水凝胶传感器。PVA/PNIPAM/PEDOT:PSS 水凝胶的断裂应变达到 300%,断裂应力达到 0.19 MPa。作为应变传感器,由于导电聚合物 PEDOT:PSS 的存在,PPP 水凝胶具有快速响应/恢复时间(200 毫秒/200 毫秒)、1% 应变的低检测限、良好的稳定性和耐久性,可以准确监测人体的各种运动。通过将 PPP 水凝胶传感器与 LabVIEW 电路程序和无线传输技术进一步结合,构建了集监测、康复训练和远程诊断为一体的先进智能人机交互系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
26.00
自引率
21.40%
发文量
185
期刊介绍: Advanced Composites and Hybrid Materials is a leading international journal that promotes interdisciplinary collaboration among materials scientists, engineers, chemists, biologists, and physicists working on composites, including nanocomposites. Our aim is to facilitate rapid scientific communication in this field. The journal publishes high-quality research on various aspects of composite materials, including materials design, surface and interface science/engineering, manufacturing, structure control, property design, device fabrication, and other applications. We also welcome simulation and modeling studies that are relevant to composites. Additionally, papers focusing on the relationship between fillers and the matrix are of particular interest. Our scope includes polymer, metal, and ceramic matrices, with a special emphasis on reviews and meta-analyses related to materials selection. We cover a wide range of topics, including transport properties, strategies for controlling interfaces and composition distribution, bottom-up assembly of nanocomposites, highly porous and high-density composites, electronic structure design, materials synergisms, and thermoelectric materials. Advanced Composites and Hybrid Materials follows a rigorous single-blind peer-review process to ensure the quality and integrity of the published work.
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