German chemists have created the first-ever boron-carbon triple bond which opens new possibilities for molecular innovation.

Nitrogen gas (N2) is one of the most abundant yet highly stable gases in the Earth's atmosphere. Its N≡N triple bond has an ...

Zeolites, crystalline materials widely used in the petrochemical industry, serve as pivotal catalysts in the production of fine chemicals, with aluminium being the source of active sites within ...

Scientists have developed a new chemical method that could make it easier, safer and more environmentally friendly to create ...

Currently, over 95% of H2O2 is industrially produced using the anthraquinone oxidation process, which is highly ...

Electrocatalytic nitric oxide reduction reaction (NORR) offers a promising route for sustainable ammonia (NH3) synthesis and ...

The biosynthetic pathways leading to such bonds can be bypassed through chemical synthesis to synthesize natural products more efficiently and also to generate the molecular diversity unavailable ...

A streamlined synthesis of the psychoactive compound ibogaine could open up new opportunities in the treatment of drug ...

The nucleosides are rich in exposed hydroxyl and amino groups, so scientists use protecting groups to prevent unintended reactions with compounds used in DNA synthesis. Chemicals remove the protecting ...

Breakthrough in N2 activation! This study unveils an electron catalysis strategy that directly converts N2 into azo compounds ...

Zeolites, crystalline materials widely used in the petrochemical industry, serve as pivotal catalysts in the production of ...