Liquid metal neuro-electrical interface

Soft science Pub Date : 2024-06-11 DOI:10.20517/ss.2023.58
Xilong Zhang, Chang Liu, Rongyu Tang, Weichen Feng, Jingru Gao, Bingjie Wu, Zhongshan Deng, Jing Liu, Lei Li
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引用次数: 0

Abstract

Liquid metal (LM), an emerging functional material, plays increasing roles in biomedical and healthcare areas. It has particular values in neural interfaces as it combines high conductivity, flowability, and biocompatibility properties. Neuro-electrical interfaces (NEIs) are effective tools to provide a bridge between the nervous system and the outside world. The main target of developing neural interfaces is to help disabled people repair damaged nerves and enhance human capacity above normal ability. This article systematically summarizes LM-based neural interface technologies, including neural electrodes for electrical signal acquisition and administration of electrical stimulation and nerve guidance conduits for neural connectivity and functional reconstruction. The discussion begins with an overview of the fundamental properties associated with LM materials involved in the field of neural interface applications. The fabrication methods of LM-based neuro-electrodes and conduits are then introduced, and the current development status of LM-based neuro-electrodes and conduits is elaborated. Finally, the prospects and possible challenges of LM-based neural interfaces are outlined.
液态金属神经-电气接口
液态金属(LM)是一种新兴的功能材料,在生物医学和医疗保健领域发挥着越来越重要的作用。由于液态金属兼具高导电性、流动性和生物相容性,因此在神经接口方面具有特殊价值。神经电气接口(NEIs)是连接神经系统和外界的有效工具。开发神经接口的主要目标是帮助残疾人修复受损的神经,提高人体能力,使其超过正常人的能力。本文系统地总结了基于 LM 的神经接口技术,包括用于采集电信号和实施电刺激的神经电极,以及用于神经连接和功能重建的神经引导导管。讨论首先概述了神经接口应用领域所涉及的 LM 材料的基本特性。然后介绍了基于 LM 的神经电极和导管的制造方法,并阐述了基于 LM 的神经电极和导管的发展现状。最后,概述了基于 LM 的神经接口的前景和可能面临的挑战。
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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CiteScore
3.10
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0.00%
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