Caged phosphines are versatile ligands due to their rigid backbones, exhibiting a range of catalytic activities, as depicted through the given pictorial representation.
Buchwald–Hartwig
amination of chloroheteroarenes has been
a challenging synthetic process, with very few protocols promoting
this important transformation at ambient temperature. The current
report discusses about an efficient copper-based catalytic system
(Cu/PTABS) for the amination of chloroheteroarenes at ambient temperature
in water as the sole reaction solvent, a combination that is first
to be reported. A wide variety of chloroheteroarenes could be coupled
efficiently with primary and secondary amines as well as selected
amino acid esters under mild reaction conditions. Catalytic efficiency
of the developed protocol also promotes late-stage functionalization
of active pharmaceutical ingredients (APIs) such as antibiotics (floxacins)
and anticancer drugs. The catalytic system also performs efficiently
at a very low concentration of 0.0001 mol % (TON = 980,000) and can
be recycled 12 times without any appreciable loss in activity. Theoretical
calculations reveal that the π-acceptor ability of the ligand
PTABS is the main reason for the appreciably high reactivity of the
catalytic system. Preliminary characterization of the catalytic species
in the reaction was carried out using UV–VIS and ESR spectroscopy,
providing evidence for the Cu(II) oxidation state.
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