A comprehensive review on the electrochemical parameters and recent material development of electrochemical water splitting electrocatalysts

Electrochemical splitting of water is an appealing solution for energy storage and conversion to overcome the reliance on depleting fossil fuel reserves and prevent severe deterioration of the global climate. Though there are several fuel cells, hydrogen (H-2) and oxygen (O-2) fuel cells have zero carbon emissions, and water is the only by-product. Countless researchers worldwide are working on the fundamentals, i.e. the parameters affecting the electrocatalysis of water splitting and electrocatalysts that could improve the performance of the hydrogen evolution reaction (HER) and oxygen evolution reaction (OER) and overall simplify the water electrolysis process. Noble metals like platinum for HER and ruthenium and iridium for OER were used earlier; however, being expensive, there are more feasible options than employing these metals for all commercialization. The review discusses the recent developments in metal and metalloid HER and OER electrocatalysts from the s, p and d block elements. The evaluation perspectives for electrocatalysts of electrochemical water splitting are also highlighted.

Automated summary

Electrochemical splitting of water is a viable solution for energy storage and conversion, reducing reliance on fossil fuels and mitigating climate change. Researchers worldwide are studying parameters affecting water electrocatalysis and developing catalysts to improve hydrogen and oxygen evolution reactions. The review focuses on recent developments in metal and metalloid electrocatalysts from the s, p, and d block elements for electrochemical water splitting and highlights evaluation perspectives.