4124-07-6Relevant articles and documents
Direct Allylation of Active Methylene Compounds with Allylic Alcohols by Use of Palladium/Phosphine-Borane Catalyst System
Shimizu, Aika,Hirata, Goki,Onodera, Gen,Kimura, Masanari
, p. 1954 - 1960 (2018/04/11)
The C?C bond formation between active methylene compounds and allylic alcohols has been newly developed by using a palladium complex as a catalyst together with a phosphine-borane ligand. The best phosphine-borane ligand for this direct allylation has bee
METHOD FOR GENERATING ALKALI METAL PHOSPHIDES THROUGH REDUCTION OF TRI-SUBSTITUTED PHOSPHINES WITH ALKALI METAL POROUS OXIDE COMPOSITIONS
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Page/Page column 19, (2008/12/08)
Alkali metal phosphides are useful intermediates for the synthesis of a variety of phosphine derivatives. Many of these phosphine derivatives are important industrial compounds with applications as synthetic intermediates or as ligands in a variety of homogeneous and heterogeneous synthetic processes. Alkali metal diarylphosphides in particular have been used in the synthesis of many phosphine ligands of importance. The invention relates to methods for generating and using alkali metal phosphides by reduction of the phosphorus sigma bonds of tri-substituted phosphorus derivatives with Group I metal/porous oxide compositions. Formula (I).
Intramolecular hydroboration of unsaturated phosphine boranes
Shapland, Peter,Vedejs, Edwin
, p. 4094 - 4100 (2007/10/03)
Homoallylic phosphine boranes undergo intramolecular hydroboration upon activation by triflic acid. The reaction occurs via an intermediate B- trifluorosulfonyloxyborane complex such as 15, followed by SN1-like or SN2-like displaceme