elsherbeni-et-al-2024-accessing-highly-substituted-indoles-via-b(c6f5)3-catalyzed-secondary-alkyl-group-transfer.pdf (1.53 MB)
Accessing Highly Substituted Indoles via B(C6F5)3-Catalyzed Secondary Alkyl Group Transfer
journal contribution
posted on 2024-03-15, 10:38 authored by Salma A Elsherbeni, Rebecca L Melen, Alex PulisAlex Pulis, Louis C MorrillHerein, we report a synthetic method to access a range of highly substituted indoles via the B(C6F5)3-catalyzed transfer of 2° alkyl groups from amines. The transition-metal-free catalytic approach has been demonstrated across a broad range of indoles and amine 2° alkyl donors, including various substituents on both reacting components, to access useful C(3)-alkylated indole products. The alkyl transfer process can be performed using Schlenk line techniques in combination with commercially available B(C6F5)3·nH2O and solvents, which obviates the requirement for specialized equipment (e.g., glovebox).
Funding
British Council and the Egyptian Cultural Affairs and Missions Sector for a PhD studentship through the Newton-Mosharafa Fund
School of Chemistry, Cardiff University
Stopped-Flow NMR Spectroscopy for the Physical and Life Sciences
Engineering and Physical Sciences Research Council
Find out more...EPSRC EP/Y00146X/1
History
Author affiliation
College of Science & Engineering/ChemistryVersion
- VoR (Version of Record)
Published in
The Journal of Organic ChemistryVolume
89Issue
6Pagination
4244-4248Publisher
American Chemical Society (ACS)issn
0022-3263eissn
1520-6904Copyright date
2024Available date
2024-03-15Publisher DOI
Spatial coverage
United StatesLanguage
enPublisher version
Deposited by
Dr Alex PulisDeposit date
2024-03-14Data Access Statement
The data underlying this study are openly available in the Cardiff University data catalogue at: 10.17035/d.2023.0296158061.Rights Retention Statement
- No
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