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Synthesis and Reactivity of Cationic Boron Complexes Distorted by Pyridine‐based Pincer Ligands: Isolation of a Photochemical Hofmann–Martius‐type Intermediate
Author(s) -
Janes Trevor,
DiskinPosner Yael,
Milstein David
Publication year - 2020
Publication title -
angewandte chemie international edition
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 5.831
H-Index - 550
eISSN - 1521-3773
pISSN - 1433-7851
DOI - 10.1002/anie.202000406
Subject(s) - pincer movement , chemistry , cationic polymerization , pincer ligand , deprotonation , reactivity (psychology) , photochemistry , boron , imine , ligand (biochemistry) , pyridine , polymer chemistry , hydride , cleavage (geology) , medicinal chemistry , organic chemistry , catalysis , materials science , hydrogen , medicine , ion , biochemistry , alternative medicine , receptor , pathology , fracture (geology) , composite material
A family of cationic boron complexes was synthesized, using a dianilidopyridine pincer ligand, which imposes in‐plane distortion of the geometry at boron towards T‐shaped. Reactivity of these cations toward hydride and base was investigated, and the utility of these cations as precursors to a variety of π‐conjugated BN heterocycles was demonstrated. 300 nm irradiation of a deprotonated pincer boron complex triggered a C−N cleavage/C−C formation yielding a dearomatized boryl imine, which has a structure akin to the long‐proposed intermediate in the photochemical Hofmann–Martius rearrangement. The photo‐rearrangement triggers relief of the distortion imposed by the pincer ligand.