Chemists at Goethe University Frankfurt have developed a catalyst capable of breaking down per- and polyfluorinated organic ...

Lawrence Berkeley National Laboratory (Berkeley Lab) designed and fabricated catalysts that can increase the speed of carbon ...

Japanese researchers turn tobacco cutworm caterpillars into living factories that create complex fluorescent nanocarbons.

The left molecular diagram shows how an individual platinum atom (gray) has replaced a cerium atom (green) on a cerium oxide ...

Scientists have successfully used insects as mini molecule-making factories, marking a breakthrough in chemical engineering.

A team of chemists at the University of Cambridge has developed a powerful new method for adding single carbon atoms to ...

Molecular machine learning (ML) underpins critical workflows in drug discovery, material science, and catalyst optimization ...

In what they're calling the "highest density of mechanical bonds ... crystalline structure and coaxed the ends of all the X's to attach to each other through the introduction of a chemical known ...

This principle suggests that molecular structure depends on nuclei ... A notable finding from this study is the distinct chemical behaviour of hydrogen-bonding interactions involving over-coordinated ...

The authors then take up the molecular orbital method and its application ... spec­ tral measurements, dipole moments, bond energies and intermolecular attraction; crystal structure and chemical ...

Using this method, we observed the electron state of the glycine molecule ... and research on the structure of DNA double helixes, are likely to benefit most from our research.” Reference: “Unveiling ...

As the interactions between atoms are governed by the valence electrons, the findings shine light on the fundamental nature of chemical bonds ... state of the glycine molecule, a type of amino ...