Controlled Alcohol–Carbonyl Interconversion by Nickel Catalysis

Abstract: The ability to transform one functional group into another lies at the heart of organic chemistry. Such functional-group interconversions do not involve carbon-carbon bond-forming reactions and are thus seen as less efficient for the construction of complex molecules, however, these interconversions are often critical to "set up" a molecule for such a transformation. The oxidation of primary and secondary alcohols (1 and 3) to produce aldehydes (2) and ketones (4) prior to the addition of organometallic specie… Show more

“…Even though we were not successful in an isolation of the nickelacycle intermediate, we found that treatment of 1a with stoichiometric amount of Ni(0)/dppf in the absence of alkyne furnished benzyl alcohol. 12 The alkyne would then insert into the CNi bond to give seven-membered nickelacycle. With its seven-membered ring strain, Ni can undergo a facile reductive elimination to give 3aa, and regenerates the starting Ni(0) complex.…”

Nickel-catalyzed Cycloaddition of Aromatic (O-Benzyl)ketoximes with Alkynes to Produce Isoquinoline and Isoquinoline N-Oxide Derivatives

“…Even though we were not successful in an isolation of the nickelacycle intermediate, we found that treatment of 1a with stoichiometric amount of Ni(0)/dppf in the absence of alkyne furnished benzyl alcohol. 12 The alkyne would then insert into the CNi bond to give seven-membered nickelacycle. With its seven-membered ring strain, Ni can undergo a facile reductive elimination to give 3aa, and regenerates the starting Ni(0) complex.…”

Nickel-catalyzed Cycloaddition of Aromatic (O-Benzyl)ketoximes with Alkynes to Produce Isoquinoline and Isoquinoline N-Oxide Derivatives

“…The identity of obtained tertiary alcohols 4a, [29] 4b [30] and 4c [31] was assessed by comparison of their 1 Ha nd 13 CNMR spectroscopic data with those reported in the literature. In ag lass tube, the appropriate ketone (0.5 mmol) was dissolved in glycerol (0.5 g) under air,t ow hich PhLi (1 mmol) was added at room temperature, and the reaction mixture was stirred for 2-3 s. The reaction was then stopped by addition of as aturated solution of the Rochelle salt (sodium potassium tartrate tetrahydrate) and organic products were extracted with dichloromethane (3 5mL).…”

“…Yields of the reaction crudes were determined by 1 H NMR spectroscopy by using dibromomethane as an internal standard. The identity of obtained tertiary alcohols 4 a , 4 b and 4 c was assessed by comparison of their 1 H and 13 C NMR spectroscopic data with those reported in the literature.…”

Introducing Glycerol as a Sustainable Solvent to Organolithium Chemistry: Ultrafast Chemoselective Addition of Aryllithium Reagents to Nitriles under Air and at Ambient Temperature

“…Similarly, the signals of the hydroxy groups in 1a-c were also shifted downfield with respect to analogous Ph 3 COH (2.78 ppm), indicating the presence of OHÁ Á ÁN hydrogen bonding. 18 Despite the diversity of the substituents on the benzhydryl moieties, the molecular structures of 1a-4a, 1b-4b and 4c are analogous (see Fig. 2 and 3 for examples; for further information, see the ESI †).…”

Access to the most sterically crowded anilines via non-catalysed C–C coupling reactions