2652-63-3Relevant academic research and scientific papers
Fast and Chemoselective Addition of Highly Polarized Lithium Phosphides Generated in Deep Eutectic Solvents to Aldehydes and Epoxides
Cicco, Luciana,Fombona-Pascual, Alba,Sánchez-Condado, Alba,Carriedo, Gabino A.,Perna, Filippo M.,Capriati, Vito,Presa Soto, Alejandro,García-álvarez, Joaquín
, p. 4967 - 4973 (2020/08/21)
Highly polarized lithium phosphides (LiPR2) were synthesized, for the first time, in deep eutectic solvents as sustainable reaction media, at room temperature and in the absence of protecting atmosphere, through direct deprotonation of both ali
CsOH-promoted epoxide ring-opening with phosphines: Mild and efficient synthesis of monohydroxyphosphines
Fox, Daniel L.,Robinson, Ashlee A.,Frank, James B.,Salvatore, Ralph Nicholas
, p. 7579 - 7582 (2007/10/03)
A mild and convenient synthesis of monohydroxyphosphines has been achieved by epoxide ring-opening using primary or secondary phosphines in the presence of cesium hydroxide, 4 ? molecular sieves and DMF at room temperature. These reaction conditions were
2-Hydroxyalkyl Diphenylphosphines: Biocatalytic Resolution and Use as Ligands for Transition-metal Catalysts
Kagan, Henri B.,Tahar, Maurice,Fiaud, Jean-Claude
, p. 5959 - 5962 (2007/10/02)
Kinetic resolution of 2-hydroxyalkyldiphenylphosphines 1 by acylation with isopropenyl acetate was carried out under rabbit gastric lipase (RGL) catalysis to give optically active 1 and the corresponding acetate, the enantioselectivity factors E ranging from 10 to 20. Key words: 2-hydroxyalkyldiphenylphosphines; rabbit gastric lipase; kinetic resolution; biocatalysis; acylation
A Simple Synthesis and Some Synthetic Applications of Substituted Phosphide and Phosphinite Anions
Tsvetkov, E. N.,Bondarenko, N. A.,Malakhova, I. G.,Kabachnik, M. I.
, p. 198 - 208 (2007/10/02)
Based on data for the acidity relationship of phosphines and phosphinous acids and water in dimethyl sulfoxide and water, a simple method is reported for the generation of phosphide and phosphinite anions by the action of concentrated aqueous alkali on primary and secondary phosphines as well as phosphinous acids in dimethyl sulfoxide or other dipolar aprotic solvents.Alkylation of the anion yields secondary and tertiary phosphines, polyphosphines, functionally substituted phosphines as well as similarly substituted phosphine oxides.Phosphinous acids have beenalkylated in various solvents in two-phase systems containing concentrated aqueous alkali and tetrabutylammonium iodide as phase transfer catalyst.
