10333-67-2Relevant articles and documents
N-phenylpyrrole: A kinetic, though not thermodynamic preference for dilithiation
Faigl,Schlosser
, p. 10271 - 10278 (1993)
Under appropriate conditions the clean preparation of either the α-monolithiated or the o,α-dilithiated derivative of N-phenylpyrrole is possible. In the latter case, the first deprotonation occurs at the α-position. Dimetalation is kinetically but not thermodynamically favored.
Bronsted Acid Catalyzed Cyclization of Inert N-Substituted Pyrroles to Benzo[ f ]pyrrolo[1,2- a ][1,4]diazepines
Gao, Zeng,Qian, Jinlong,Yang, Huameng,Zhang, Jinlong,Jiang, Gaoxi
, p. 930 - 934 (2021/04/27)
Two approaches involving intramolecular and intermolecular cyclization, respectively, have been developed for the direct and practical construction of a series of important benzo[ f ]pyrrolo[1,2- a ][1,4]azepines by using Bronsted acid catalysts. Upon catalysis by TsOH, the intramolecular dehydroxylation/ring closure of 3-hydroxy-2-[2-(1 H -pyrrol-1-yl)benzyl]isoindolin-1-ones provided various racemic benzo[ f ]pyrrolo[1,2- a ][1,4]azepines in high yields. Furthermore, enantioenriched benzo[ f ]pyrrolo[1,2- a ][1,4]azepines were also obtained by chiral phosphoric acid catalyzed intermolecular addition of [2-(1 H -pyrrol-1-yl)phenyl]methanamines to 2-formylbenzoates under mild conditions.
MODULAR SYNTHESES OF DISCOIPYRROLE TYPE ALKALOIDS AND ANALOGUES
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Paragraph 00148, (2017/07/06)
The present invention relates to methods for preparing a variety of discoipyrrole compounds and analogues using an oxidative cyclisation reaction as one of the steps. The present invention also relates to novel discoipyrrole analogues, pharmaceutical comp
Efficient synthesis of 9H-pyrrolo[1,2-a]indol-9-one derivatives based on active manganese dioxide promoted intramolecular cyclization
Aiello, Francesca,Garofalo, Antonio,Grande, Fedora
supporting information; experimental part, p. 274 - 277 (2010/03/01)
A series of 9H-pyrrolo[1,2-a]indol-9-ones have been prepared via in-situ sequential oxidation of [2-(1H-pyrrol-1-yl)phenyl]methanols promoted by active manganese dioxide. The procedure led to title compounds in good yields under mild conditions, without the need to isolate the intermediate aldehydes.