7214-61-1Relevant articles and documents
Nickel-Catalyzed NO Group Transfer Coupled with NOxConversion
Padmanaban, Sudakar,Choi, Jonghoon,Vazquez-Lima, Hugo,Ko, Donghwi,Yoo, Dagyum,Gwak, Jinseong,Cho, Kyung-Bin,Lee, Yunho
supporting information, p. 4585 - 4593 (2022/03/02)
Nitrogen oxide (NOx) conversion is an important process for balancing the global nitrogen cycle. Distinct from the biological NOx transformation, we have devised a synthetic approach to this issue by utilizing a bifunctional metal catalyst for producing value-added products from NOx. Here, we present a novel catalysis based on a Ni pincer system, effectively converting Ni-NOx to Ni-NO via deoxygenation with CO(g). This is followed by transfer of the in situ generated nitroso group to organic substrates, which favorably occurs at the flattened Ni(I)-NO site via its nucleophilic reaction. Successful catalytic production of oximes from benzyl halides using NaNO2 is presented with a turnover number of >200 under mild conditions. In a key step of the catalysis, a nickel(I)-?NO species effectively activates alkyl halides, which is carefully evaluated by both experimental and theoretical methods. Our nickel catalyst effectively fulfills a dual purpose, namely, deoxygenating NOx anions and catalyzing C-N coupling.
Synthesis of Isoxazolines from Nitroalkanes via a [4+1]-Annulation Strategy
Ushakov, Pavel Yu.,Khatuntseva, Elizaveta A.,Nelyubina, Yulia V.,Tabolin, Andrey A.,Ioffe, Sema L.,Sukhorukov, Alexey Yu.
, p. 5322 - 5327 (2019/11/13)
A novel access to isoxazolines was developed using the [4+1]-annulation of α-keto-stabilized sulfur ylides with N,N-bis(siloxy)enamines derived from aliphatic nitro compounds. The resulting 5-keto-substituted isoxazolines were shown to be convenient precursors of polysubstituted 3-hydroxypyrrolidines via the one-pot catalytic N?O hydrogenolysis/intramolecular reductive amination sequence. Application of this approach to the formal synthesis of Merck's potent NK1 receptor antagonist was demonstrated. (Figure presented.).
Micelle-enabled palladium catalysis for convenient sp2-sp3 coupling of nitroalkanes with aryl bromides in water under mild conditions
Brals, Jeremy,Smith, Justin D.,Ibrahim, Faisal,Gallou, Fabrice,Handa, Sachin
, p. 7245 - 7250 (2017/11/09)
The efficacy of custom surfactant FI-750-M, designed to mimic polar solvents such as DMF and 1, 4-dioxane, has been demonstrated with the palladium-catalyzed sp2-sp3 coupling of nitroalkanes to aryl bromides using a heteroleptic palladium catalyst under unprecedentedly mild conditions. Optimized reaction conditions mostly provided good yields up to gram scale, with high selectivity and functional group tolerance for a wide scope of aryl bromides. Use of surfactant FI-750-M makes water the gross reaction medium and enables in-flask recycling. The behavior of the surfactant has been elucidated with DLS and cryo-TEM measurements, and mechanistic investigations have revealed the importance of the π-allyl ligand in the catalytic cycle.