Xiao‐Wei Liang scite author profile

Recent advances in dearomatization through halofunctionalization reactions are summarized in this Minireview. Two general categories of strategies are currently employed in this field. On one hand, the reaction can be initiated with electrophilic halogenation at an alkyne or alkene moiety. The resulting halonium ion intermediate is then captured by a pendant aromatic ring at the ipso position, affording the dearomatization product. On the other hand, electrophilic halogenation can directly take place at a substituted arene, and the final dearomatization product is furnished by deprotonation or intramolecular nucleophilic trap. Highly enantioselective variants have been realized in the latter case by organocatalysis or transition metal catalysis. By applying these methods, various valuable halogenated polycyclic molecular architectures have been obtained from readily available starting materials.

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Organocatalytic asymmetric chlorinative dearomatization of naphthols

Yin

et al. 2015

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Asymmetric fluorinative dearomatization of tryptamine derivatives

et al. 2017

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An asymmetric fluorinative dearomatization reaction of tryptamine derivatives was developed by using a chiral anion phase transfer catalyst (PTC) system, and the preliminary results of the reaction mechanistic study were achieved. This method is characterized by a simple operation, facile introduction of a fluorine atom in a highly enantioselective manner and construction of two contiguous quaternary stereogenic centers.

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Xiao‐Wei Liang

Dearomatization through Halofunctionalization Reactions

Organocatalytic asymmetric chlorinative dearomatization of naphthols

Asymmetric fluorinative dearomatization of tryptamine derivatives

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