Explore the revolutionary surface-catalyzed cyclodehydrogenation method enabling precise synthesis of fullerenes and buckyballs with atomic precision.
Explore how carbon xerogels are revolutionizing water purification through advanced adsorption and catalytic processes.
Exploring the fundamental principles, experimental breakthroughs, and future prospects of electrocatalytic CO2 reduction technology.
Explore how ensemble methods revolutionize computational protein design through applications in Fcγ immunoglobulin, HIV-1 protease, and ketol-acid reductoisomerase systems.
Exploring the cutting edge of biomolecular catalysis where biology's blueprints are revolutionizing technology at the nanoscale.
Discover how scientists in 1985 successfully cloned the gene for Chronic Granulomatous Disease, a landmark achievement in genetics that paved the way for modern genomic medicine.
Explore the science behind Methanol to Olefins (MTO) catalysis, a sustainable technology converting methanol into essential chemical building blocks through dynamic complex catalysis.
Discover how scientists confirmed Co₄POM as a true molecular water oxidation catalyst and its implications for sustainable energy solutions.
Explore how molecular dynamics simulations are transforming our understanding of heterogeneous catalysis reactions through atomic-level visualization and machine learning.
Discover how scientists are using copper(I) to synthesize powerful bimetallic platinum-copper nanoparticles for sustainable energy applications.