Ammonia as an irreplaceable chemical has been widely demanded to keep the sustainable
development of the modern society. However, its industrial production consumes huge …

Significant progress has been made in the discovery of bifunctional electrocatalysts for
energy storage and conversion systems. Particularly, high-performance bifunctional …

Modulating the microenvironment of single‐atom catalysts (SACs) is critical to optimizing
catalytic activity. Herein, we innovatively propose a strategy to improve the local reaction …

Electrochemical water splitting plays a vital role in facilitating the transition towards a
sustainable energy future by enabling renewable hydrogen (H2) production, energy storage …

Electrocatalytic water splitting driven by sustainable energy is a clean and promising water‐
chemical fuel conversion technology for the production of high‐purity green hydrogen …

Transition metal oxides have shown efficient catalytic performance for electrochemical
nitrate reduction reaction (e-NO 3 RR). However, the surface evolution on catalyst remains …

Renewable energy technologies have been continuously improved as a result of the
pressing need for sustainable energy. Among these, hydrogen energy has received …

Ni-based hydroxides are brilliant electrocatalysts for alkaline urea oxidation reaction (UOR).
Herein, multiple Ni-based hydroxides were investigated by electrocatalytic test for UOR …

Water splitting, an efficient technology to produce purified hydrogen, normally requires high
cell voltage (> 1.5 V), which restricts the application of single atoms electrocatalyst in water …

Rational designing efficient transition metal-based multifunctional electrocatalysts is highly
desirable for improving the efficiency of hydrogen production from water cracking. Herein, a …