Electricity generation from phase transitions between liquid and gaseous water
B Shao, Y Song, Z Song, Y Wang… - Advanced Energy …, 2023 - Wiley Online Library
The ubiquitous and spontaneous phase transitions between liquid and gaseous water
contain substantial energy that can be harvested by emerging hydrovoltaic technologies …
contain substantial energy that can be harvested by emerging hydrovoltaic technologies …
Harvesting energy from atmospheric water: grand challenges in continuous electricity generation
J Tan, X Wang, W Chu, S Fang, C Zheng… - Advanced …, 2024 - Wiley Online Library
Atmospheric water is ubiquitous on earth and extensively participates in the natural water
cycle through evaporation and condensation. This process involves tremendous energy …
cycle through evaporation and condensation. This process involves tremendous energy …
Fully printed planar moisture-enabled electric generator arrays for scalable function integration
T He, H Wang, B Lu, T Guang, C Yang, Y Huang… - Joule, 2023 - cell.com
Ubiquitous moisture is of particular attraction for sustainable power generation. However,
rigorous assembly procedures limit the efficient large-scale integration for moisture-enabled …
rigorous assembly procedures limit the efficient large-scale integration for moisture-enabled …
Ion‐Diode‐Like Heterojunction for Improving Electricity Generation from Water Droplets by Capillary Infiltration
Water‐droplet‐based electricity generators are emerging hydrovoltaic technologies that
harvest energy from water circulation through strong interactions between water and …
harvest energy from water circulation through strong interactions between water and …
Weavable yarn-shaped moisture-induced electric generator
Moisture-induced electric generation has emerged as a promising powering solution for next-
generation wearable electronics since moisture is ubiquitous in the atmosphere. However …
generation wearable electronics since moisture is ubiquitous in the atmosphere. However …
Triboelectric nanogenerators for smart agriculture
Rapid iterations of sensing, energy, and communication technologies transform traditional
agriculture into standardized, intensive, and smart modern agriculture. However, the energy …
agriculture into standardized, intensive, and smart modern agriculture. However, the energy …
Moist‐electric generator with efficient output and scalable integration based on carbonized polymer dot and liquid metal active electrode
Q Li, Y Qin, D Cheng, M Cheng, H Zhao… - Advanced Functional …, 2023 - Wiley Online Library
Moisture‐enabled electricity generation (MEG) is highly promising in next‐generation
energy conversion. However, the practical applications of existing MEG devices are limited …
energy conversion. However, the practical applications of existing MEG devices are limited …
Sustainable moisture energy
J Xu, P Wang, Z Bai, H Cheng, R Wang, L Qu… - Nature Reviews …, 2024 - nature.com
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 …
demands and facilitate the transition to low-carbon economy. Moisture-sorption-based …
High‐Performance Fully Stretchable Moist‐Electric Generator
X Wen, Z Sun, X Xie, Q Zhou, H Liu… - Advanced Functional …, 2024 - Wiley Online Library
The emerging moist‐electric generation that can harvest energy from the atmosphere
moisture to power the next‐generation wearable electronics has attracted great attention …
moisture to power the next‐generation wearable electronics has attracted great attention …
Hierarchically porous fiber‐based nanofluidic diode as an efficient multimode hygroelectric generator
X Lu, T Yang, C Fu, Z Jiang, Y Zhang… - Advanced Energy …, 2022 - Wiley Online Library
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 …
promising approach to green energy acquisition. However, at present, different devices are …