Amorphous materials are metastable solids with only short-range order at the atomic scale,
which results from local intermolecular chemical bonding. The lack of long-range order …

The rational phase engineering on transition-metal-based (TM-based) catalysts is an
efficient strategy to improve the catalytic performance for oxygen evolution reaction (OER) …

Efficient bifunctional electrocatalysts for hydrogen and oxygen evolution reactions are key to
water electrolysis. Herein, we report a built‐in electric field (BEF) strategy to fabricate …

Electrochemical water splitting represents one of the most promising technologies to
produce green hydrogen, which can help to realize the goal of achieving carbon neutrality …

Oxygen evolution reaction (OER), as a relevant half reaction for water splitting to address the
energy crisis, has captured a great deal of attention. However, this technology has always …

It is highly desirable to develop efficient catalysts under high-current-density operation and
long-term stability for high performance water splitting. However, most reported modified …

As a key structural parameter, phase depicts the arrangement of atoms in materials.
Normally, a nanomaterial exists in its thermodynamically stable crystal phase. With the …

Amorphous nanomaterials have emerged as potential candidates for energy storage and
conversion owing to their amazing physicochemical properties. Recent studies have proved …

The hydrogen energy generated by the electrocatalytic water splitting reaction has been
established as a renewable and clean energy carrier with ultra‐high energy density, which …

Develo** highly effective electrocatalysts capable of bifunctionally facilitating hydrogen
evolution reaction (HER) and oxygen evolution reaction (OER) is paramount for advancing …