纳米发生器
材料科学
静电纺丝
微晶
纳米技术
电压
光电子学
碳纳米管
相(物质)
膜
电容器
功率(物理)
响应时间
阳极
纳米纤维
摩擦电效应
聚己内酯
作者
Xiuhong Li,Jiangzhou Li,Libo Wang,Jiatong Ren,Zhiyong Yang,S. R. Zhang,Yifan Li,Jinjiao Zhang,Daode Zhang,Yong Liu,Xiaozhi Hu
出处
期刊:Small
[Wiley]
日期:2026-01-31
卷期号:22 (19): e13068-e13068
标识
DOI:10.1002/smll.202513068
摘要
Self-powered sensor based on nanogenerator provides a potential strategy for addressing the power concern of intelligent sensor. However, the low output of piezo-triboelectric coupled nanogenerator (PTCNG) severely hinders its applications in self-powered sensor. To manage this issue, a novel PTCNG with synergistic regulation of microcrystalline phases and patterned structures was developed, which is composed of the multi-wall carbon nanotube (MWCNT)-polyvinylidene difluoride (PVDF) membrane prepared by solution electrospinning and the polycaprolactone (PCL) membrane with patterned structures manufactured by melt-electrospinning direct writing. To establish the synergistic effects on the PTCNG output, four different assembled modes of PTCNG were constructed. In comparison to the PTCNG assembled with PVDF/PCL and MWCNT-PVDF/PCL with irregular structures, the obtained PTCNG demonstrates a significantly enhanced output performance with four times and 5.2 times higher. Specifically, the PTCNG exhibits a stable open-circuit voltage (260 V) and contact response time (40 ms) and recovery response time (10 ms) after 75 min of continuous operations at a 4 Hz frequency (over 18 000 loading-unloading cycles). Additionally, this PTCNG can charge a 3.3µF capacitor to a voltage of around 29 V within 120 s, power 104 series-connected LEDs, etc., suggesting a promising potential in self-powered sensor.
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