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Hydrovoltaic technology: from mechanism to applications

Xiaofan Wang, Fanrong Lin, Xiang Wang, Sunmiao Fang, Jin Tan, Weicun Chu, Rong Rong, Jun Yin, Zhuhua Zhang, Yanpeng Liu, Wanlin Guo

2022Chemical Society Reviews343 citationsDOI

Abstract

Yet, only very limited energy in the water cycle is harvested by current industrial technologies. The past decade has witnessed the emergence of hydrovoltaic technology, which generates electricity from nanomaterials by direct interaction with water and enables energy harvesting from the water cycle such as from rain, waves, flows, moisture and natural evaporation. Years of efforts have been committed to improve the conversion efficiency of hydrovoltaic devices through chemical synthesis of advanced nanomaterials and innovative design of device structures. Further development of this field, however, still requires in-depth understanding of hydrovoltaic mechanisms and boosting of the electrical outputs for wider applications. Here, we present a tutorial review of different mechanisms of generating electricity from droplets, flows, natural evaporation and ambient moisture by analyzing basic interactions at various water-material interfaces. Key aspects in raising the output power of hydrovoltaic devices are then discussed in terms of material synthesis, structural design, and device optimization. We also provide an outlook on the potential applications of this technology ranging from sensors, power suppliers to multifunctional systems as well as on the scientific and technological challenges in transforming its potential into practical utility. The prospects of this emerging field are considered for future endeavor.

Topics & Concepts

Mechanism (biology)Computer scienceChemistryEpistemologyPhilosophySolar-Powered Water Purification MethodsEnergy Harvesting in Wireless NetworksAdvanced Sensor and Energy Harvesting Materials
Hydrovoltaic technology: from mechanism to applications | Litcius