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Additive manufacturing (AM, 3D printing) is now widely used in almost all natural sciences: chemistry, physics, biology and medicine.

Catalysis has fundamentally changed chemistry of the 21st century and became the basis of the modern industrial processes.

The project developed and improved unique competences in the application of artificial intelligence (AI) to solve complex chemistry problems.

Biofilms shape environmental processes, industrial performance, and many clinically important infections. They are structurally complex, dynamic, and often resistant to conventional treatment.

Light is one of the cleanest and most precise tools available to chemistry.

Digital design, additive manufacturing and practical validation of chemical reactors for modern organic synthesis.

Cocktail-type catalysis describes catalytic systems in which molecular complexes, clusters, nanoparticles, surface atoms and leached single-metal species coexist and interconvert under reaction conditions. The catalyst is not a fixed object: it is a dynamic chemical population whose composition changes during turnover.