Single-atom catalysts (SACs) have received intensive interest due to the utmost atom
utilization and unique catalytic behaviors. However, the catalytic mechanism of SACs is still …

Aniline and its derivatives, as the basic aromatic amine compounds, are widely used in
different fields such as chemistry, biology, medicine, dyes, polymer materials and …

A series of Fe-NC catalysts were synthesized by pyrolyzing an Fe complex and wheat flour
at 500° C. All of them were characterized and applied in the catalytic transfer hydrogenation …

A highly effective method to synthesise dialkyl peroxides from alkyl hydroperoxides and alkyl
bromides in a liquid–liquid–liquid system using tetraalkylammonium salts as phase-transfer …

The dialkyl peroxides, which contain a thermally unstable oxygen–oxygen bond, are an
important source of radical initiators and cross-linking agents. New efficient and green …

Intensification of multiphase reactions with 100% selectivity to the desired product is a
cherished goal in fine chemical industry. In this regard, converting bi-liquid phase transfer …

The conversion of the traditional liquid–liquid (L–L) phase transfer catalysis (PTC) into liquid–
liquid–liquid (L–L–L) PTC offers several advantages. L–L–L PTC is a novel strategy which …

Conversion of biphasic reactions into triphasic reactions can lead to process intensification,
waste minimization and selectivity enhancement. Unlike liquid–liquid (L–L) PTC, the Liquid …

The kinetics of Zinin reduction between m-chloronitrobenzene (m-CNB) and H2S-laden
monoethanolamine (MEA) in a liquid–liquid–solid (L–L–S) system catalysed by the anion …

Fine chemicals are complex, single and pure chemicals produced in limited quantities by a
multi-step batch chemical or biological process (from Wikipedia, 2021, https://en. wikipedia …