82303-13-7Relevant articles and documents
Sequential Organozinc Formation and Negishi Cross-Coupling of Amides Catalysed by Cobalt Salt
Dorval, Céline,Dubois, Elodie,Bourne-Branchu, Yann,Gosmini, Corinne,Danoun, Grégory
supporting information, p. 1777 - 1780 (2019/02/26)
Herein, a cobalt-catalysed Negishi-type cross-coupling of amide derivatives is described. Apart from being the first example of cobalt-catalysed Negishi-type coupling of amides, the process described employs a unique, simple, and cheap catalytic system to perform both the organozinc formation and the Negishi-type coupling. Indeed, the same cobalt(II) bromide salt used to form the arylzinc species from aryl bromides is then re-used to perform the cross coupling of this resulting arylzinc with N-benzoyl glutarimides at room temperature. The main advantages of the reaction presented are its robustness and ease of use. Indeed, the reactions of organozinc formation and Negishi-type coupling are performed without precautions toward water or oxygen. (Figure presented.).
Cobalt-Catalyzed Formation of 2-Pyridylzinc Reagents and Their Subsequent Coupling
Linke, Stephanie,Manolikakès, Sofia M.,Auffrant, Audrey,Gosmini, Corinne
, p. 2595 - 2600 (2018/06/08)
The preparation of pyridylzinc compounds from the corresponding pyridyl halides using a cobalt catalyst is described. The complex employed features a polydentate N-heterocyclic ligand and allows the reaction to be carried out in the absence of pyridine as
N-protected 1,2-oxazetidines as a source of electrophilic oxygen: Straightforward access to benzomorpholines and related heterocycles by using a reactive tether
Javorskis, Tomas,Sriubaite, Simona,Bagd?iunas, Gintautas,Orentas, Edvinas
supporting information, p. 9157 - 9164 (2015/06/16)
A hitherto unknown reactivity of a strained four-membered heterocycle, 1,2-oxazetidine, is reported. When reacted with organometallic compounds, this reagent provides electrophilic oxygen with a nitrogen-terminated two-carbon-atom tether. The synthetic versatility of the products obtained was demonstrated in various transformations, leading to efficient synthesis of six-, seven-, and eight-membered heterocyclic systems of pharmaceutical importance. Open and then close: The O-selective ring-opening reaction of 1,2-oxazetidines with organometallic compounds provides tethered phenol derivatives that can be used to access six-, seven-, and eight-membered heterocyclic systems in only a few steps (see scheme; Ts=tosyl).