Transition metal borides, carbides, pnictides, and chalcogenides (X-ides) have emerged as
a class of materials for the oxygen evolution reaction (OER). Because of their high earth …

The main and significant element in the energy system is hydrogen atom. In addition,
electrochemical water splitting is among the most crucial approaches for displacing the …

Electrochemical water splitting powered by renewable energy (eg solar, wind) has been
recognized as a sustainable and environmentally-friendly way to produce “green” hydrogen …

There has never been a more pressing need to develop sustainable energy systems as
dramatic climate changes emerge across the World. Some of these effects can be alleviated …

Renewable energy powered electrochemical water splitting has been recognized as a
sustainable and environmentally-friendly way to produce green hydrogen, which is an …

Transition metal phosphide electrocatalysts have shown tremendous potential for oxygen
evolution reaction (OER). Herein, we develop Cu-CoP porous nanoplates through …

As a sustainable energy form, hydrogen can be most practically obtained from
electrocatalytic water splitting. The familiar organics can be oxidized to more useful …

Understanding the relationship between electronic structure, surface characteristic, and
reaction process of a catalyst helps to architect proficient electrodes for sustainable energy …

Hydrogen production through direct seawater electrolysis has shown substantial promise
because of the abundance of seawater and the favorable possibility of combining offshore …

Hydrogen production by electrocatalytic water splitting is of supreme significance for
revolving the energy crisis at hand, and develo** highly efficient, robust and cost-effective …