Hydrogen (H2) has been regarded as a promising alternative to fossil‐fuel energy. Green
H2 produced via water electrolysis (WE) powered by renewable energy could achieve a …

The energy devices for generation, conversion, and storage of electricity are widely used
across diverse aspects of human life and various industry. Three-dimensional (3D) printing …

During electrocatalytic water splitting, the management of bubbles possesses great
importance to reduce the overpotential and improve the stability of the electrode. Bubble …

An advantageous porous architecture of electrodes is pivotal in significantly enhancing
alkaline water electrolysis (AWE) efficiency by optimizing the mass transport mechanisms …

We demonstrate a water splitting electrode on aramid fabric. SnS2 is firstly synthesized on
the fabric on the scale from 1 cm2 to 18 cm2, and nickel is subsequently electrodeposited …

Electrolysis of water has emerged as a prominent area of research in recent years. As a
promising catalyst support, copper foam is widely investigated for electrolytic water, yet the …

For efficient and stable large-scale water electrolysis, practical industrial electrodes should
meet the following characteristics: high activity, structural stability, and fast bubble removal …

Highly efficient and multifunctional electrocatalysts are of high value in energy
transformation and electrochemical sensing. Herein, hierarchically architectured cobalt …

The electrochemical water splitting to produce hydrogen converts electric energy into clean
hydrogen energy, which is a groundbreaking concept of energy optimization. To achieve …

Bionic interfaces exhibit multiscale features with various functions that reduce energy
consumption and produce renewable resources to support life, triggering them an emerging …