Exploring hybrid systems combining biological and chemical approaches for efficient CO₂ reduction and conversion
Exploring Wilhelm Ostwald's revolutionary combinatorial approach linking chemistry, color theory, and information organization through mathematics.
Exploring how public investments in science and technology act as catalytic multipliers for national economic growth and global competitiveness.
Explore how Timothy J. Deming's groundbreaking work on synthetic polypeptides transformed polymer science, enabling precise biomaterials and advanced medical applications.
Breakthrough technologies combating global corrosion - from self-strengthening alloys to AI-powered prediction systems
How multidisciplinary codesign is overcoming fundamental challenges in oxygen evolution reaction catalysts for clean hydrogen production
Discover how neutron scattering spectroscopy revolutionizes catalyst research by revealing atomic-scale reactions in real industrial conditions.
Exploring how electrocatalysis enables clean energy conversion through efficiency, selectivity, and stability in hydrogen production, fuel cells, and carbon neutrality.
How cerium oxide nanoparticles evolved from industrial catalysts to biomedical marvels over three decades of research and innovation.
Exploring cutting-edge research in PEMFC catalysts that's slashing costs while boosting durability for the hydrogen revolution.