Microfiber-Based Triboelectric Acoustic Sensors Enable Self-Powered Ultrasonic Localization and Tracking Underwater DOI
Kai Dong, Yihan Zhang, Xiaoxuan Fan

et al.

ACS Sensors, Journal Year: 2025, Volume and Issue: unknown

Published: Feb. 6, 2025

Underwater ultrasonic detection is critical for marine security, playing a vital role in resource development, environmental protection, and national defense. However, existing systems, which primarily rely on active scanning technologies, are hindered by high costs, significant energy demands, challenges achieving large-scale deployment. Here, we introduce microfiber-based triboelectric acoustic sensor (MTAS) featuring core-shell hierarchical structure, offering self-powered solution precise measurement of underwater ultrasound source distance. By leveraging the principles contact electrification/triboelectrification electrostatic induction, MTAS efficiently converts complex vibrations into real-time electrical signals. The demonstrates rapid response times as low 8.6 μs, signal-to-noise ratio 29.8 dB, capability to detect sources with power levels above 1.6 W via time-difference-of-arrival analysis. To address sea applications, further propose distributed network that integrates multiple units capable localization motion trajectory visualization. This innovation represents transformative approach, combining operation, ease deployment, imperceptibility, paving way large-area, energy-efficient submarine security systems. Such advancements redefine paradigm target detection, aligning technological pressing demands safety sustainability.

Language: Английский

Microfiber-Based Triboelectric Acoustic Sensors Enable Self-Powered Ultrasonic Localization and Tracking Underwater DOI
Kai Dong, Yihan Zhang, Xiaoxuan Fan

et al.

ACS Sensors, Journal Year: 2025, Volume and Issue: unknown

Published: Feb. 6, 2025

Underwater ultrasonic detection is critical for marine security, playing a vital role in resource development, environmental protection, and national defense. However, existing systems, which primarily rely on active scanning technologies, are hindered by high costs, significant energy demands, challenges achieving large-scale deployment. Here, we introduce microfiber-based triboelectric acoustic sensor (MTAS) featuring core-shell hierarchical structure, offering self-powered solution precise measurement of underwater ultrasound source distance. By leveraging the principles contact electrification/triboelectrification electrostatic induction, MTAS efficiently converts complex vibrations into real-time electrical signals. The demonstrates rapid response times as low 8.6 μs, signal-to-noise ratio 29.8 dB, capability to detect sources with power levels above 1.6 W via time-difference-of-arrival analysis. To address sea applications, further propose distributed network that integrates multiple units capable localization motion trajectory visualization. This innovation represents transformative approach, combining operation, ease deployment, imperceptibility, paving way large-area, energy-efficient submarine security systems. Such advancements redefine paradigm target detection, aligning technological pressing demands safety sustainability.

Language: Английский

Citations

1