Electrocatalysis and photocatalysis are key processes for enabling sustainable energy conversion and storage. Electrocatalysis involves accelerating electrochemical reactions at electrode surfaces, playing a vital role in hydrogen production, fuel cells, batteries, and carbon dioxide reduction. Photocatalysis uses light energy to drive chemical reactions, such as water splitting and solar fuel generation. Both technologies aim to improve reaction efficiency, selectivity, and durability while reducing energy losses. Advances in catalyst materials, nanostructures, and surface engineering have significantly enhanced performance. Electrocatalysis and photocatalysis support renewable energy integration, clean fuel production, and emission reduction. They are central to artificial photosynthesis, green hydrogen, and circular carbon technologies.
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