The method has applications in organic chemistry, particularly within the pharmaceutical industry. A team of scientists has developed an electrochemical technique that enables precise, para-position ...

Imagine the concrete in our homes and bridges not only withstanding the ravages of time and natural disasters like the intense heat of wildfires, but actively self-healing or capturing carbon dioxide ...

Developing efficient strategies for the simultaneous discrimination and detection of bioanalytes with similar structures holds great importance for ...

The modulation of the surface structure of platinum-based single-atom alloys is crucial for improving the catalytic ...

Single-atom cobalt catalysts have been recognized as promising alternatives to natural enzymes. However, their relatively low catalytic activity greatly limits their further application. Herein, ...

Atoms are the building blocks of all matter, from the air we breathe to every cell in our bodies. Yet despite their presence everywhere, no one has truly seen an atom with the naked eye ,until ...

Redesign of the potent painkiller's core prevents breathing suppression and reduces addiction-related behaviours in mice ...

A research team has discovered an electrochemical method that allows highly selective para-position single-carbon insertion ...

A research team has discovered an electrochemical method that allows highly selective para-position single-carbon insertion into polysubstituted ...

In a significant step towards a carbon-neutral future, researchers developed an atomically precise copper nanocluster that ...

In a significant step toward a carbon-neutral future, researchers from Tohoku University (Japan), the Tokyo University of ...

An international team of researchers, including scientists at Lawerence Livermore National Laboratory, has successfully measured the atomic structure of liquid carbon for the first time, according to ...