The ubiquitous and spontaneous phase transitions between liquid and gaseous water
contain substantial energy that can be harvested by emerging hydrovoltaic technologies …

Atmospheric water is ubiquitous on earth and extensively participates in the natural water
cycle through evaporation and condensation. This process involves tremendous energy …

Ubiquitous moisture is of particular attraction for sustainable power generation. However,
rigorous assembly procedures limit the efficient large-scale integration for moisture-enabled …

Water‐droplet‐based electricity generators are emerging hydrovoltaic technologies that
harvest energy from water circulation through strong interactions between water and …

Moisture-induced electric generation has emerged as a promising powering solution for next-
generation wearable electronics since moisture is ubiquitous in the atmosphere. However …

Rapid iterations of sensing, energy, and communication technologies transform traditional
agriculture into standardized, intensive, and smart modern agriculture. However, the energy …

Moisture‐enabled electricity generation (MEG) is highly promising in next‐generation
energy conversion. However, the practical applications of existing MEG devices are limited …

Harvesting energy from the ambient is a promising approach to fulfil decentralized energy
demands and facilitate the transition to low-carbon economy. Moisture-sorption-based …

The emerging moist‐electric generation that can harvest energy from the atmosphere
moisture to power the next‐generation wearable electronics has attracted great attention …

Harvesting electrical energy from different forms of water by using the hydrovoltaic effect is a
promising approach to green energy acquisition. However, at present, different devices are …