材料科学
可穿戴计算机
摩擦电效应
电子皮肤
压力传感器
可穿戴技术
纳米发生器
纳米技术
石墨烯
电极
计算机科学
触觉传感器
电介质
纳米孔
宽带
机器人
动态范围
物联网
功率(物理)
功率密度
虚拟现实
灵活的显示器
智能材料
能量收集
螺线管
作者
Omar Faruk,M. Robiul Islam,Gagan Bahadur Pradhan,Trilochan Bhatta,Md Asaduzzaman,Ahmad Abdus Samad,Md Shofiul Alam,Seung Jae Lim,Jae Yeong Park
标识
DOI:10.1002/adfm.202527394
摘要
ABSTRACT Technological advancement has heightened the desire for natural and intuitive human‐machine interactions (HMIs), driving innovation in wearable devices. Inspired by human skin, this study unveils a hybrid smart finger‐ring (HSF‐Ring) that integrates a bifunctional nanofiller‐based triboelectric nanogenerator (BN‐TENG) and an iontronic pressure sensor (IPS), achieving advanced sensory capabilities to detect both dynamic and static pressures that are essential for mimicking skin‐like functionality in a self‐powered manner. Leveraging a bifunctional‐nanofiller of functionalized‐hybrid nanoporous carbon (F‐HNPC) within a silicone matrix, BN‐TENG exhibits significantly enhanced dielectric properties, charge‐trapping efficiency, and induction capacity due to the extensive surface area, nanoporosity, and conductivity of F‐HNPC, whereas cone‐shaped microstructures further amplify dynamic response and wearer comfort without additional spacers with skin. Consequently, BN‐TENG achieves a superior power density of 0.82 W/m 2 , a three‐fold higher than pure silicone‐based TENG. Furthermore, integration with an IPS, fabricated using laser‐scribed graphene electrodes and ionic‐liquid‐infused nanofibrous membrane sensing layer, enables precise self‐powered static‐dynamic pressure detection. The highly integrated HSF‐Ring demonstrates an excellent dynamic (2.41 V/kPa) and static (−99.84 mV/kPa) sensitivities in the low‐pressure range with excellent linearity. This innovative device significantly advances wearable HMIs, showing the potential for transformative applications, including robotic control, sign language interpretation, and virtual reality interaction.
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