1325449-31-7Relevant articles and documents
Catalyst-free and catalysed addition of P(O)-H bonds to allenyl/alkynyl-phosphonates and-phosphane oxides: Use of a robust, recoverable dinuclear palladium(I) catalyst
Srinivas, Venu,Balaraman,Sajna,Kumara Swamy
supporting information; experimental part, p. 4222 - 4230 (2011/09/15)
An effective, recoverable, dinuclear palladium(I) catalyst [(OCH 2CMe2CH2O)PSPd(PPh3)]2 has been explored and compared with other traditional palladium catalysts (e.g., [Pd(PPh3)4]) in the phosphonylation/phosphanylation ofallenes (OCH2CMe2CH2O)P(O)CH=C=CH2 (1), Ph2P(O)CH=C=CH2 (2), (EtO)2P(O)CH=C= CH2 (3) (OCH2CMe2CH2O)P(O)CH=C= CMe2 (4), Ph2P(O)CH=C=CMe2 (5), (OCH 2CMe2CH2O)P(O)C(Ph)=C=CH2 (6) and Ph2P(O)C(Ph)=C=CH2 (7). The phosphonylation/ phosphanylation, in general, occurred at the carbon β to the phosphorus atom, but the concomitant proton addition took place at the α or γ positions leading to either allyl-or vinyl-phosphonates. The use of P(nBu) 3 as catalyst led to geminal and bis-phosphonylation/phosphanylation with less substituted =CH2 terminal allenes 1 and 2. In conjunction with the use of the corresponding isomeric alkynes 8 and 9, as many as five different types of phosphonylated products have been synthesized. The reactions with the more substituted allenes 4-7 gave single products in most cases. Several examples of catalyst-free, solvent-free phosphanylation reactions are also described. The reactivity of the phosphonylating/phosphanylating agents was found to be (OCH2CMe2CH2O)P(O)H (10) 2CMe2CH2O)P(S)H (11) 2P(O)H (12) ≈ Ph2P(S)H (13). The catalytic activity of the recoverable dinuclear palladium(I) complex [(OCH2CMe 2CH2O)PSPd(PPh3)]2 (14), which poses interesting questions about the mechanistic pathway, is briefly highlighted. Structures of the dinuclear palladium(I) catalyst 14 and the key products were determined by X-ray crystallography.