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Photochemical Generation of Chiral N,B,X‐Heterocycles by Heteroaromatic C−X Bond Scission (X=S, O) and Boron Insertion
Author(s) -
Mellerup Soren K.,
Li Cally,
Radtke Julian,
Wang Xiang,
Li QuanSong,
Wang Suning
Publication year - 2018
Publication title -
angewandte chemie
Language(s) - English
Resource type - Journals
eISSN - 1521-3757
pISSN - 0044-8249
DOI - 10.1002/ange.201803760
Subject(s) - chemistry , bond cleavage , conrotatory and disrotatory , reactivity (psychology) , boron , photochemistry , acetylide , medicinal chemistry , stereochemistry , ring (chemistry) , organic chemistry , catalysis , medicine , alternative medicine , pathology
Chiral organoboron compounds with a chelate backbone and mesityl/heterocycle substituents (thienyl, furyl, and derivatives thereof) undergo a quantitative phototransformation that yields rare, chiral N,B,X‐containing heterocycles, such as base‐stabilized 1,2‐thiaborinines and 1,2‐oxaborinines. Boriranes were observed as intermediates in some of these transformations. The oxaborinines display further reactivity, generating 4a,12b‐dihydrobenzo[ h ][1,2]oxaborinino[4,3‐ f ]quinolines through a sequential conrotatory electrocyclization and a [1,5]‐H shift. The N,B,X‐containing heterocycles display strong blue‐green to orange‐red emission in the solid state. Combined DFT//CASP2T calculations suggest that a common biradical intermediate is responsible for the formation of these compounds as well as their interconversion.
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