60173-65-1Relevant academic research and scientific papers
Domino Aryne Annulation via a Nucleophilic-Ene Process
Xu, Hai,He, Jia,Shi, Jiarong,Tan, Liang,Qiu, Dachuan,Luo, Xiaohua,Li, Yang
supporting information, p. 3555 - 3559 (2018/03/21)
1,2-Benzdiyne equivalents possess the unique property that they can react with two arynophiles through iteratively generated 1,2- and 2,3-aryne intermediates. Upon rational modification on the second leaving group of these aryne precursors, a domino aryne annulation approach was developed through a nucleophilic-ene reaction sequence. Various benzo-fused N-heterocyclic frameworks were achievable under transition metal-free conditions with a broad substrate scope.
Investigation of steric and electronic features of 3-iminophosphine-based palladium catalysts for intermolecular hydroamination
Zingales, Nicholas C.,Shaffer, Andrew R.,Schmidt, Joseph A. R.
, p. 578 - 586 (2013/03/14)
A series of (3-iminophosphine)allylpalladium triflate complexes with systematic variation of both steric and electronic features was isolated and characterized. The ability of the complexes in this series to catalyze the regioselective hydroamination of 3-methyl-1,2-butadiene with aryl amines to form solely the kinetic product was probed by observing conversion to products via NMR spectroscopy. The previously unstudied 3-iminophosphine ligand composed of a di-tert-butyl phosphine, cyclobutene backbone, and tert-butyl imine provided the most active palladium hydroamination catalyst for this transformation known to date.
Regioselective iron-catalyzed allylic amination
Plietker, Bernd
, p. 6053 - 6056 (2007/10/03)
(Chemical Equation Presented) Iron age: An air- and water-resistant iron(-II) catalyst, in the presence of triphenylphosphane under buffered conditions, allows for the highly regioselective and stereoselective allylation of primary aromatic amines. A broa
