材料科学
电磁干扰
导电体
电磁屏蔽
电磁干扰
复合材料
涂层
电介质
摩擦电效应
渗透(战争)
数码产品
人体运动
碳纳米管
电导率
稳健性(进化)
聚合物
静电感应
电磁兼容性
柔性电子器件
可穿戴技术
布基纸
粘附
光电子学
电磁学
可穿戴计算机
纳米技术
炭黑
导电聚合物
消散
作者
F Liu,Lirui Shi,M R Wu,Jianwei Zhang,J J Liu
摘要
ABSTRACT The rapid development of wearable electronics demands multifunctional materials that can simultaneously mitigate electromagnetic interference (EMI) and enable real‐time human motion monitoring. Herein, we reported a mussel‐inspired ferric ion (Fe 3+ )‐PDA co‐deposition method to modify basalt fiber (BF) fabric, followed by spray‐coating of carbon nanotubes (CNTs) onto the fabric surface. The Fe 3+ ‐PDA coating not only significantly improved the interfacial adhesion of CNTs but also introduced polar groups and metal–ligand charge transfer complexes that enhanced the dielectric loss. The resulting PCBF‐8 fabric exhibited an EMI shielding effectiveness (SE) of 34.7 dB. The specific SE of single‐layer PDBF‐8 fabric can reach up to 1917.78 dB/cm, surpassing many reported composites. It also produced distinct signal characteristics in response to various joint motions (finger: 1.03% Δ R / R 0 ; wrist: 5.47%; elbow: 16.78%; knee: 17.94%). Moreover, the fabric showed good environmental durability: after 7 days of sunlight exposure, the EMI SE retained approximately 90.6% of its original value. After immersion in 1 mol/L HCl and NaOH for 3 h, the SE decreased from 9.11 to 7.16 and 5.68 dB, respectively, confirming its robustness under harsh chemical conditions. This study displayed that a single conductive network can concurrently achieve static EMI protection and dynamic motion perception, offering a promising strategy for next‐generation smart wearables.
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