katalyyttia

Katalyyttia is a term used in chemical science to describe a class of catalytic processes and materials designed to accelerate chemical reactions by providing alternative, lower-energy pathways. The concept encompasses both homogeneous and heterogeneous catalysis, as well as emerging nanoengineered and bioinspired systems. In katalyyttia, the active sites facilitate the adsorption, activation, and transformation of reactants, enabling efficient turnover of substrates into products without the catalyst being consumed.

Key features of katalyyttia include tunable activity and selectivity, stability under operating conditions, and the ability

Materials used in katalyyttia span traditional supports with dispersed metal particles, single-atom catalysts, and advanced nanostructured

Applications of katalyyttia include energy-related processes (hydrogen production, CO2 reduction, and hydrocarbon upgrading), chemical synthesis (ammonia