基于磁性纳米材料的软电子和机器人技术的最新进展

Soft science Pub Date : 2023-01-01 DOI:10.20517/ss.2023.05
Xiang Lin, Mengdi Han
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引用次数: 0

摘要

软电子和机器人技术的最新进展已经扩展了传统刚性设备的能力之外的可能性,表明了在电子皮肤,无线生物医学设备等方面的一系列应用前景。在这些软系统中开发的磁性材料可以进一步拓宽传感和驱动的模式。这些磁性材料,当以纳米颗粒、纳米膜或其他类型的纳米结构的形式构建时,表现出一些独特的特性,如磁电阻效应和尺寸相关的矫顽力。采用这种磁性纳米材料的软电子和机器人技术提供了多种功能,包括检测磁场的强度和方向,测量各种类型的机械变形,在小尺度上操纵和运输,以及以可控的方式进行多模态复杂运动。尽管最近软电子和机器人技术取得了进步,但在开发先进材料和制造方案以提高性能指标并促进与其他设备的集成方面仍然存在挑战。本文综述了磁性纳米材料在软电子和机器人领域的研究进展,重点介绍了磁性纳米材料及其器件的性能。讨论的重点是基于磁性纳米膜/纳米结构和磁性复合材料的软电子和机器人技术。作为结束语,本文总结了该领域的现状,并讨论了支持未来进展的机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Recent progress in soft electronics and robotics based on magnetic nanomaterials
Recent advancements in soft electronics and robotics have expanded the possibilities beyond the capabilities of traditional rigid devices, indicating promise for a range of applications in electronic skins, wireless biomedical devices, and others. Magnetic materials exploited in these soft systems can further broaden the modalities in sensing and actuation. These magnetic materials, when constructed in the forms of nanoparticles, nanomembranes, or other types of nanostructures, exhibit some unique characteristics, such as the magnetoresistance effect and size-dependent coercivity. Soft electronics and robotics employing such magnetic nanomaterials offer a variety of functions, including the detection of the intensity and direction of magnetic fields, measurement of various types of mechanical deformations, manipulation and transport at small scales, and multimodal complex locomotion in a controllable fashion. Despite recent advancements in soft electronics and robotics, challenges remain in developing advanced materials and manufacturing schemes to improve performance metrics and facilitate integration with other devices. This review article aims to summarize the progress made in soft electronics and robotics based on magnetic nanomaterials, with an emphasis on introducing material and device performance. The discussions focus on soft electronics and robotics based on magnetic nanomembranes/nanostructures and magnetic composites. As a concluding remark, this article summarizes the current status of the field and discusses opportunities that underpin future progress.
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