摩擦电效应
能量收集
能量(信号处理)
计算机科学
纳米发生器
风浪
海洋能源
电气工程
机械能
航程(航空)
功率(物理)
联轴节(管道)
工作(物理)
水下
太阳能
电磁频谱
储能
适应(眼睛)
建筑
能量转换
动态范围
简单(哲学)
隐约出现
能谱
作者
Zhenyuan Dong,Ningle Hou,Huijing Qiu,Xianye Li,Zhong Lin Wang,Lei Xu
摘要
ABSTRACT Although triboelectric nanogenerators (TENGs) are regarded as a promising technology for wave energy utilization, most present devices are only effective at relative high frequency with a narrow range, seriously incompatible with actual wave spectrum of energy distribution. Here, we present a wave‐adaptive triboelectric nanogenerator based on device‐anchor‐water synergistic effect, achieving ultrawide frequency range highly compatible with actual wave spectrum via a simple structure. Specifically, the device adopts a novel partial Ferris wheel design, featuring revolution‐spin coupling motion of planet TENGs under agitations, and the potential energy landscape of the wheel can be tuned for unique non‐linear behavior, which imparts the device supreme adaptation capability to real capricious waves of varying frequencies and amplitudes, maximizing power take‐off. Based on the high‐performance generator, an autonomous smart ocean platform for customizable marine sensing applications is developed. A prototype for smart marine ranch using the platform can collect and transmit local data automatically to the base station 1.24 km away, surpassing present record and ready for practical application. The work provides not only a general multifunctional architecture for self‐powered marine Internet‐of‐Things, but also a paradigm shift for solving the wave‐adaptation and spectrum‐matching challenges in wave energy harvesting, greatly enhancing practical performance.
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