Electrochemical water splitting is a mature technology for hydrogen generation. Numerous
studies have focused on the development of highly efficient electrocatalysts to produce …

The increasing energy demand and environmental issues caused by the over-exploitation of
fossil fuels render the need for renewable, clean, and environmentally benign energy …

Transition metal nitrides (TMNs) have gained substantial interest to generate hydrogen from
direct dissociation of water via catalytic strategy. Due to the unique noble metal like …

As a clean energy carrier, hydrogen has priority in decarbonization to build sustainable and
carbon-neutral economies due to its high energy density and no pollutant emission upon …

Aqueous electrolytes are the leading candidate to meet the surging demand for safe and low-
cost storage batteries. Aqueous electrolytes facilitate more sustainable battery technologies …

Highly efficient, low-cost electrocatalysts having superior activity and stability are crucial for
practical electrochemical water splitting, which involves hydrogen and oxygen evolution …

Developing hierarchical electrocatalysts for the oxygen evolution reaction (OER) is of great
importance for electrochemical hydrogen production. Here, we describe the development of …

Alkaline water splitting is an attractive method for sustainable hydrogen production. Owing to
the sluggish kinetics of alkaline water reduction and oxidation, it is crucial to understand the …

Heterogenous electrocatalysts based on transition metal sulfides (TMS) are being actively
explored in renewable energy research because nanostructured forms support high intrinsic …

The Sun is an inexhaustible source of renewable energy, although under-utilized due to its
intermittent nature. Hydrogen fuel is another clean, storable, and renewable energy as it can …