Nature Communications (Jul 2024)

Self-powered and speed-adjustable sensor for abyssal ocean current measurements based on triboelectric nanogenerators

  • Yuan Chao Pan,
  • Zhuhang Dai,
  • Haoxiang Ma,
  • Jinrong Zheng,
  • Jing Leng,
  • Chao Xie,
  • Yapeng Yuan,
  • Wencai Yang,
  • Yaxiaer Yalikun,
  • Xuemei Song,
  • Chang Bao Han,
  • Chenjing Shang,
  • Yang Yang

DOI
https://doi.org/10.1038/s41467-024-50581-w
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 10

Abstract

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Abstract The monitoring of currents in the abyssal ocean is an essential foundation of deep-sea research. The state-of-the-art current meter has limitations such as the requirement of a power supply for signal transduction, low pressure resistance, and a narrow measurement range. Here, we report a fully integrated, self-powered, highly sensitive deep-sea current measurement system in which the ultra-sensitive triboelectric nanogenerator harvests ocean current energy for the self-powered sensing of tiny current motions down to 0.02 m/s. Through an unconventional magnetic coupling structure, the system withstands immense hydrostatic pressure exceeding 45 MPa. A variable-spacing structure broadens the measuring range to 0.02–6.69 m/s, which is 67% wider than that of commercial alternatives. The system successfully operates at a depth of 4531 m in the South China Sea, demonstrating the record-deep operations of triboelectric nanogenerator-based sensors in deep-sea environments. Our results show promise for sustainable ocean current monitoring with higher spatiotemporal resolution.