Ali Dabbous scite author profile

A mild and simple protocol for the synthesis of 8-azabicyclo[3.2.1]octane and 9-azabicyclo[3.3.1]nonane derivatives is described. It provides these valuable bicyclic alkaloid skeletons in good yields and high levels of diastereoselectivity from simple and readily available starting materials using visible-light photoredox catalysis. This unprecedented annulation process takes advantage of the unique reactivity of ethyl 2-(acetoxymethyl)acrylate as a 1,3-bis radical acceptor and of cyclic N,N-dialkylanilines as radical 1,3-bis radical donors. The success of this process relies on efficient electron transfer processes and highly selective deprotonation of aminium radical cations leading to the key α-amino radical intermediates.

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Fine tuning of quantum dots photocatalysts for the synthesis of tropane alkaloid skeletons

Dabbous

Colson

Chakravorty

et al. 2023

Preprint

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Several types of Quantum Dots (QDs) (CdS, CdSe and InP, as well as core-shell QDs such as type I InP-ZnS, quasi type-II CdSe-CdS and inverse type-I CdS-CdSe) were considered for generating α-aminoalkyl free radicals. The feasibility of the oxidation of the N-aryl amines and the generation of the desired radical was evidenced experimentally by quenching of the photoluminescence of the QDs and by testing a vinylation reaction using an alkenylsulfone radical trap. The QDs were tested in a radical [3+3]-annulation reaction giving access to tropane skeletons and that requires the completion of two consecutive catalytic cycles. Several QDs such as CdS core, CdSe core and inverted type I CdS-CdSe core-shell proved to be efficient photocatalysts for this reaction. Interestingly, the addition of a second shorter chain ligand to the QDs appeared to be essential to complete the second catalytic cycle and to obtain the desired bicyclic tropane derivatives. Finally, the scope of the [3+3]-annulation reaction was explored for the best performing QDs and isolated yields that compares well with classical iridium photocatalysis were obtained.

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Tropane and Related Alkaloid Skeletons via a Radical [3+3]-Annulation Process

Colson

Andrez

Dabbous

et al. 2021

Preprint

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Ali Dabbous

Tropane and Related Alkaloid Skeletons via a Radical [3+3]-Annulation Process

Fine tuning of quantum dots photocatalysts for the synthesis of tropane alkaloid skeletons

Tropane and Related Alkaloid Skeletons via a Radical [3+3]-Annulation Process

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