摩擦电效应
纳米发生器
能量收集
电压
材料科学
功率(物理)
纳米技术
能量(信号处理)
接触角
电气工程
发光二极管
计算机科学
光电子学
电势能
工艺工程
电流(流体)
传感器融合
机械能
人工神经网络
想象
电子工程
汽车工程
工程物理
发电
融合
环境科学
机械工程
作者
Z. Zhang,Jiao Wang,Yang Liu
出处
期刊:Langmuir
[American Chemical Society]
日期:2026-03-26
卷期号:42 (13): 9239-9247
标识
DOI:10.1021/acs.langmuir.5c06538
摘要
Droplet triboelectric nanogenerators (D-TENGs) hold significant promise for ambient energy harvesting, yet their insufficient output limits practical application. This study proposes an interfacial engineering strategy employing fluorosilane-modified SiO2 (F-SiO2) to enhance the performance of conventional D-TENG based on polytetrafluoroethylene. The constructed F-SiO2-coated droplet TENG (FSD-TENG) exhibits superior hydrophobicity compared to conventional D-TENG, achieving a contact angle of 152.3°. The FSD-TENG achieves an open-circuit voltage of 201.7 V, which is 5.8 times higher than that of untreated devices, and delivers an output power of 2.1 mW, representing a 7-fold improvement over conventional D-TENG. Its practical potential is demonstrated by illuminating 300 LEDs upon a single droplet impact. Furthermore, the FSD-TENG's output characteristics exhibit a strong correlation with droplet pH. Leveraging multi-feature fusion of voltage and current signals, we developed a raindrop pH monitoring system. This system accurately identifies raindrop pH via FSD-TENG's output, with a neural network achieving 95% identification accuracy within pH 3-7 after 20 training epochs. Consequently, the FSD-TENG-based monitoring system not only provides novel data support for digital twin technology but also pioneers innovative pathways for environmental monitoring, showcasing a complete technological chain from fundamental research to practical implementation.
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