Droplet Energy Harvesting
System Based on Total-Current
Nanogenerator
Posted on 2024-05-16 - 01:44
The droplet-based nanogenerator (DNG) is a highly promising
technology
for harvesting high-entropy water energy in the era of the Internet
of Things. Yet, despite the exciting progress made in recent years,
challenges have emerged unexpectedly for the AC-type DNG-based energy
system as it transitions from laboratory demonstrations to real-world
applications. In this work, we propose a high-performance DNG system
based on the total-current nanogenerator concept to address these
challenges. This system utilizes the water-charge-shuttle architecture
for easy scale-up, employs the field effect to boost charge density
of the triboelectric layer, adopts an on-solar-panel design to improve
compatibility with solar energy, and is equipped with a novel DC–DC
buck converter as power management circuit. These features allow the
proposed system to overcome the existing bottlenecks of DNG and empower
the system with superior performances compared with previous ones.
Notably, with the core architecture measuring only 15 cm × 12.5
cm × 0.3 cm in physical dimensions, this system reaches a record-high
open-circuit voltage of 4200 V, capable of illuminating 1440 LEDs,
and can charge a 4.7 mF capacitor to 4.5 V in less than 24 min. In
addition, the practical potential of the proposed DNG system is further
demonstrated through a self-powered, smart greenhouse application
scenario. These demonstrations include the continuous operation of
a thermohygrometer, the operation of a Bluetooth plant monitor, and
the all-weather energy harvesting capability. This work will provide
valuable inspiration and guidance for the systematic design of next-generation
DNG to unlock the sustainable potential of distributed water energy
for real-world applications.
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Li, Yuanhang; Ma, Gang; Li, Yang; Fu, Jie; Wang, Meishan; Gong, Kuiliang; et al. (1753). Droplet Energy Harvesting
System Based on Total-Current
Nanogenerator. ACS Publications. Collection. https://doi.org/10.1021/acsami.4c02607