Bioinspired Heat‐Induced Viscoelasticity‐Switchable Electrodes for Conformal Brain‐Computer Interfaces

材料科学 电极 可穿戴计算机 纳米技术 可穿戴技术 共形映射 微流控 光电子学 明胶 微电极 脑-机接口 计算机科学 仿生学 传感器 工作(物理) 全息术 模态(人机交互) 聚合物 生物医学工程 柔性电子器件 生物传感器 频道(广播) 热敏电阻器
作者
Zheren Cai,Shangen Zhang,Jianwu Wang,Yifei Luo,Ming Zhu,Zhisheng Lv,Xiaoyang Li,Yuzhen Chen,Yonghao Song,Gao Xiaorong,Cuntai Guan,Xiaodong Chen
出处
期刊:Advanced Materials [Wiley]
卷期号:38 (10): e17936-e17936 被引量:3
标识
DOI:10.1002/adma.202517936
摘要

Electroencephalography is a promising noninvasive modality for brain-computer interfaces (BCIs), yet its widespread adoption is constrained by electrode limitations: dry electrodes yield unstable signals, whereas wet electrodes require laborious setup and are ill-suited to wearable devices. Inspired by honeybees that locally heat beeswax to reversibly switch it between rigid and moldable states for comb construction, this work introduces a heat-induced viscoelasticity-switchable electrode (HIVE) that enables conformal contact on hairy scalps and user-friendly operation in wearable systems. HIVE integrates a thermoresponsive gelatin gel confined in a sponge matrix with an on-electrode microheater. Its temperature is actively modulated on demand, enabling autonomous switching between the gel and sol states. As a flowable sol, it permeates hair, conforms to the skin. At body temperature, it remains in a viscoelastic state, providing strong adhesion. Moreover, heating duration is closed-loop controlled using real-time electrode-skin impedance. In steady-state visual evoked potential paradigm, HIVE delivers high classification accuracy comparable to gold-standard wet electrodes while supporting wearable BCI devices for vision-based wheelchair navigation and high-speed text entry. By translating honeybee viscoelasticity-modulation strategy into bioelectronic interfaces, this work provides a practical solution for wearable BCI devices and a new design paradigm for conformal biointerfaces on hairy or piliferous surfaces.
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