Methane oxidation to ethanol by a molecular junction photocatalystInnovative photocatalysis can enable efficient conversion of methane to ethanol with improved selectivity and conversion rates.
Photocatalytic CF bond activation in small molecules and polyfluoroalkyl substancesA new organic photoredox catalyst enables efficient activation of carbon-fluorine bonds, crucial for reducing harmful PFAS compounds.
Synergistic photobiocatalysis for enantioselective triple radical sortingCombining thiamine-dependent enzymes with photoredox catalysis allows for efficient enantioselective three-component radical cross-coupling, enhancing chemical synthesis capabilities.
Methane oxidation to ethanol by a molecular junction photocatalystInnovative photocatalysis can enable efficient conversion of methane to ethanol with improved selectivity and conversion rates.
Photocatalytic CF bond activation in small molecules and polyfluoroalkyl substancesA new organic photoredox catalyst enables efficient activation of carbon-fluorine bonds, crucial for reducing harmful PFAS compounds.
Synergistic photobiocatalysis for enantioselective triple radical sortingCombining thiamine-dependent enzymes with photoredox catalysis allows for efficient enantioselective three-component radical cross-coupling, enhancing chemical synthesis capabilities.
Engineered enzymes for enantioselective nucleophilic aromatic substitutionsThe engineered enzyme SNAr1.3 significantly enhances stereoselective nucleophilic aromatic substitution reactions with high efficiency and selectivity, representing a major improvement in chemical synthesis.
AI-driven mobile robots team up to tackle chemical synthesisAI-driven robots can expedite exploratory chemistry research effectively, matching human-level decision-making but on a faster timescale.
Autonomous mobile robots for exploratory synthetic chemistry - NatureAutonomous robotic laboratories can revolutionize chemical synthesis but face significant barriers to widespread adoption.
AI-driven mobile robots team up to tackle chemical synthesisAI-driven robots can expedite exploratory chemistry research effectively, matching human-level decision-making but on a faster timescale.
Autonomous mobile robots for exploratory synthetic chemistry - NatureAutonomous robotic laboratories can revolutionize chemical synthesis but face significant barriers to widespread adoption.
Emergence of a distinct mechanism of C-N bond formation in photoenzymes - NatureThe research introduces a new methodology that enhances the efficiency of synthesizing complex chemical compounds.
Chemists Finally Made a Compound Containing Mysterious Element PromethiumResearchers at Oak Ridge National Laboratory successfully synthesized a chemical complex of radioactive promethium, providing crucial insights into its chemical behavior and potential applications in nuclear waste separation.