The integration of computational chemistry with synthetic organic methodologies has ushered in a new era of chemical research, where theoretical predictions and experimental validations work ...

Multi-titanium hydrides can selectively snip the strong structural bonds of stable organic molecules called pyridines, RIKEN researchers have shown. This discovery could guide designing catalysts for ...

Initially, the authors discovered that using weakly nucleophilic hexafluoroisopropanol as the nucleophile enabled the selective synthesis of trivalent phosphorus at a high current density of 44.4 ...

Almost half a century ago, a remarkable molecule called metallocene took center stage in chemistry, earning Geoffrey Wilkinson and Ernst Otto Fischer the Nobel Prize. These organic compounds, made of ...

Chemists from St. Petersburg University has developed a new family of luminescent iridium complexes that, for the first time, realize a unique mechanism of photoactivated proton transfer. In the ...

Chemists have developed a method to furnish a range of molecules with a trifluoromethyl group attached to a sulfur, nitrogen or oxygen atom. Their procedure avoids the use of PFAS reagents. It thus ...

Chemists from ETH Zurich have found a way to produce poorly soluble proteins by caging a uniquely reactive boron compound. This method opens up new possibilities for the synthesis of tailored protein ...

Breakthrough in N 2 activation! This study unveils an electron catalysis strategy that directly converts N 2 into azo compounds under mild conditions—a game-changer for nitrogen fixation. By ...

Chinese researchers have developed a photocatalytic membrane reactor that dramatically improves the synthesis of imines—a ...