Discover how reconfigurable automated systems are transforming chemical reaction optimization through robotics, AI, and advanced sensors.
Exploring how systematic errors in chemical experiments create the illusion of the kinetic compensation effect, a mathematical artifact rather than a real chemical phenomenon.
Explore the fascinating world of Neurospora crassa and its isocitrate lyase-2 enzyme, a metabolic marvel that challenges scientific conventions.
Explore how molecular dynamics simulations reveal the intricate movements of bacterial carboxylesterases and their catalytic mechanisms.
Explore how asymmetric catalysis revolutionizes drug development by creating specific molecular 'handedness' for safer, more effective medications.
Discover how NETL is transforming waste into worth and reimagining fossil fuels through ultra-clean fuels research, including biofuel combustion, solid oxide fuel cells, and waste-to-energy technologies.
Discover how recent breakthroughs in catalysis research are revealing the fundamental mechanisms behind chemical reactions at the atomic level.
Explore how organic and inorganic molecules communicate through chirality, the scientific term for molecular handedness, and its implications for medicine, technology, and understanding life's origins.
How molecular matchmakers are tackling climate change, one reaction at a time. Explore the breakthrough science of sustainable catalysis.
Comprehensive analysis of coagulation thresholds in molybdenum-vanadium blue sols using advanced measurement techniques and data visualization.