posted on 2022-12-15, 19:06authored byJiancheng Li, Zhihao Lu, Liu Leo Liu
Free
phosphaborenes (R–PB–R) are PB analogues
of alkynes, and their isolation is a long-sought-after goal. Herein,
we demonstrate that the combination of a π-donating and a π-accepting
substituent with bulky flanking arene rings enables the isolation
of a crystalline free phosphaborene 5 at room temperature.
This electron push–pull cooperation, combined with the kinetic
protection, hinders its inherent tendency to oligomerize. This species
features a PB double bond consisting of a conventional σ bond
and a delocalized π bond. The lone pair of electrons at P slightly
contributes to the PB bonding. Preliminary reactivity studies show
that 5 undergoes facile (cyclo)addition reactions with p-methyl benzaldehyde, p-fluoroacetophenone,
and carbon disulfide, the last of which results in facile PB double
bond cleavage. Our strategy has a significant impact on the future
synthesis of ambiphilic heterodiatomic multiply bonded main group
species.