Interfaces between a liquid and a solid (L–S) are the most important surface science in
chemistry, catalysis, energy, and even biology. Formation of an electric double layer (EDL) …

The shortage of freshwater resources has become a major obstacle threatening human
development, and directly utilizing solar energy by solar evaporators is emerging as a …

Water evaporation‐induced electricity generators (WEIGs) are promising as self‐powered
electronic devices, as they can harvest green, small‐grade, and ubiquitous hydrovoltaic …

Nano-hydroelectric technology utilizes hydraulic flow through electronically conducting
nanomaterials to generate electricity in a simple, renewable, ubiquitous, and …

Wearable electronics fabricated on lightweight and flexible substrate are believed to have
great potential for portable devices, but their applications are limited by the life span of their …

Harvesting energy from natural water evaporation has been proposed as a promising
alternative to supply power for self‐powered and low‐power devices and systems, owing to …

Converting environmental “waste energies” into electricity via a natural process is an ideal
strategy for environmental energy harvesting and supplying power for distributed energy …

Power generation by converting energy from the ambient environment has been considered
a promising strategy for develo** decentralized electrification systems to complement the …

The charge transfer phenomenon of contact electrification even exists in the liquid–solid
interface by a tiny droplet on the solid surface. In this work, we have investigated the contact …

The continuous energy-harvesting in moisture environment is attractive for the development
of clean energy source. Controlling the transport of ionized mobile charge in intelligent …