74810-84-7Relevant articles and documents
Ir-catalyzed asymmetric allhylie substitutions with (Phosphoramidite)Ir complexes-resting states, synthesis, and characterization of catalytically active (π-Allyl)Ir complexes
Spiess, Stephanie,Raskatov, Jevgenij A.,Gnamm, Christian,Broedner, Kerstin,Helmchen, Guenter
, p. 11087 - 11090 (2009)
A simple method for the synthesis of Ir complexes of cyclo-metallated phosphoramidite ligands was reported. In a dry Schienk flask under argon, a solution of [{Ir(cod)Cl}2] and L2 in absolute THF was stirred for 20 mm and then AgClO4 and isomer
Allyl 4-Chlorophenyl Sulfone as a Versatile 1,1-Synthon for Sequential α-Alkylation/Cobalt-Catalyzed Allylic Substitution
Kojima, Masahiro,Matsunaga, Shigeki
, p. 1934 - 1946 (2020/07/03)
Despite their unique potential as rare 1,1-dipole synthons, allyl sulfones are rarely used in target-oriented syntheses, likely due to the lack of a general catalytic method for their branch-selective allylic substitution. Herein, we identified allyl 4-chlorophenyl sulfone as a versatile linchpin for both base-mediated α-derivatization and subsequent cobalt-catalyzed allylic substitution. The sequential transformations allow for highly regioselective access to branched allylic substitution products with a variety of aliphatic side chains. The photoredox-enabled cobalt catalysis is indispensable for achieving high yields and regioselectivity for the desulfonylative substitution in contrast to traditional metal-catalyzed protocols, which lead to inferior outcomes in the corresponding transformations.
Novel [ruthenium(substituted-tetramethylcyclopentadiene) (2-quinolinecarboxylato)(allyl)] hexafluorophosphate complexes as efficient catalysts for highly regioselective nucleophilic substitution of aliphatic allylic substrates
Zhang, Hui-Jun,Demerseman, Bernard,Toupet, Loic,Xi, Zhenfeng,Bruneau, Christian
supporting information; experimental part, p. 1601 - 1609 (2009/07/18)
Stable [ruthenium(R-substituted-tetramethylcyclopentadiene)(2- quinolinecarboxylato) (1-R′-substituted-allyl) hexafluorophosphate (R = Me, R′ = H, Me, n-Pr, Ph; R = t-Bu, R′ = Me) and [ruthenium(pentamethylcyclopentadiene)(2-quinolinecarboxylato)(1-n-propylallyl)] tetrafluoroborate (4′a), as allylruthenium(IV) complexes, have been synthesized in one step, starting from [ruthenium(R-substituted- tetramethylcyclopentadiene)tris(acetonitrile) hexafluorophosphate or tetrafluoroborate complexes, quinaldic acid, and allylic alcohols. Single stereoisomers are obtained and the X-ray single crystal structure determinations of 3b (R = t-Bu, R′ = Me) and 4′a allow one to specify the preferred arrangement. Complexes 3a (R = R′ = Me) and 3b are involved as precatalysts favoring the formation of branched products in regioselective nucleophilic allylic substitution reactions, starting from ethyl 2-(E)-hexen-1-yl carbonate and chlorohexene as unsymmetrical aliphatic allylic substrates. Phenols, dimethyl malonate, and primary (aniline) and secondary (pyrrolidine, piperidine) amines have been used as nucleophiles under mild basic conditions. For the first time, the regioselectivity in favor of the branched product obtained from purely aliphatic allylic substrates is close to the high regioselectivity previously reached starting from cinnamyl-type substrates in the presence of ruthenium catalysts.
