Catalytic reactions for hydrogen storage and release
Catalytic reactions for hydrogen storage and release
Catalytic reactions for hydrogen storage and release are a crucial area of research in the field of renewable energy. Hydrogen has emerged as a promising alternative to fossil fuels due to its high energy density and compatibility with fuel cells. However, storing and releasing hydrogen safely and efficiently remains a challenge. Catalytic reactions offer an innovative solution by utilizing transition metal complexes or nanoparticles as catalysts to facilitate hydrogen storage and release processes. These catalysts enhance the reaction kinetics, allowing for reversible adsorption of molecular hydrogen onto solid-state materials. They can also promote hydrogenation or dehydrogenation reactions, enabling controlled hydrogen release as needed for various applications. The study of catalytic reactions for hydrogen storage and release provides insights into designing efficient and sustainable energy systems, making it an important area to explore further in order to accelerate the transition towards a carbon-neutral future.
Keywords
· LOHC
· Hydrides
· Circular H2 storage
· Reversible H2 storage
· Ammonia
· Formic acid
· Methanol
· Solid-state H2 storage