The exploitation of cheap and efficient electrocatalysts is the key to make energy‐related
electrocatalytic techniques commercially viable. In recent years, transition metal phosphides …

With the increasing demands in energy consumption and increasing environmental
concerns, it is of vital significance for developing renewable and clean energy sources to …

Electrochemical water splitting, as a promising energy conversion technology, is entirely
limited by the slow reaction kinetics due to the large overpotentials for oxygen evolution …

Flexible zinc–air batteries (ZABs) have been scrutinized as a type of promising flexible
power source for next-generation electronic devices, but the batteries' temperature …

Modulating and constructing interface engineering is an efficient strategy to enhance
catalytic activity for water splitting. Herein, a hybrid nanoarray structure of V‐CoP@ a‐CeO2 …

High-efficiency electrocatalysts for water splitting can be achieved by constructing
heterostructure engineering purposely. The same pyrite structure of NiSe 2/NiP 2 with …

Different transition metal compounds (TMCs) nanostructures grown on conductive
substrates have been considered as promising self-supportive non-precious electrocatalysts …

The development of highly efficient, low-cost and robust electrocatalysts for water splitting is
urgently necessary to approach the energy crisis and environmental problems. In recent …

Electrochemical water splitting, as a promising sustainable‐energy technology, has been
limited by its slow kinetics and large overpotential. This shortcoming necessitates the design …

Nowdays, electrocatalytic water splitting has been regarded as one of the most efficient
means to approach the urgent energy crisis and environmental issues. However, to speed …