摩擦电效应
材料科学
电容感应
触觉传感器
光电子学
声学
平版印刷术
压力传感器
可穿戴计算机
投影机
电压
可穿戴技术
微图形化
宽带
纳米技术
纳米发生器
声表面波
测距
电子皮肤
联轴节(管道)
纳米机电系统
电介质
软机器人
邻近效应(电子束光刻)
高保真
声压
微电子机械系统
小型化
电容耦合
传感器
电容器
电容
平面的
3D打印
光刻
作者
Injamamul Arief,Swagato Sarkar,Anik Kumar Ghosh,Osvalds Verners,Kamal Kumar Meena,Su‐Hyeong Lee,Soosang Chae,Tobias A. F. König,Beate Krause,Andreas Fery,Mehmet Özer,Anindya Nag,Amit Das
标识
DOI:10.1002/adma.202521525
摘要
Recent advances in electromechanically coupled, self-powered, flexible transducer-enabled electronic skins are predominantly driven by the capacitive triboelectric nanogenerators (TENGs), which operate intrinsically as multifunctional sensor-cum-energy harvester. The resulting TENG's operability in cutting-edge wearable technologies can be significantly augmented by introducing 2D dielectric metasurfaces, which optimize functionality through enhanced electromechanical coupling. Here, we introduce a 2D metasurface-TENG e-skin that unifies tactile (contact and inductive) and acoustic sensing in a single ultrathin platform. Large-area nanocone (NC) metasurfaces are engineered on 100 µm polydimethoxysilane (PDMS) films via laser-interference lithography (LIL) and soft molding, which boosts triboelectric charge density and provides optical diffraction cues for strain monitoring. Integrated into a 3 × 3 array, the device delivers real-time tactile pressure imaging with low crosstalk and non-contact proximity detection. The NC-TENG patch also functions as a self-powered acoustic sensor, in which the sound pressure level (SPL) and frequency response are quantified in both spatial and spectral domains over a broad frequency range (∼50-6400 Hz). Compared to pristine PDMS, the metasurface enhances open-circuit voltage by ≈46% under identical loading and sustains stable electrical output. By coupling electromechanical and electro-acoustic transductions with metasurface optics, this work advances multimodal, arrayed e-skins for next-generation human-machine interfaces and wearable sensing.
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