143924-62-3Relevant articles and documents
Evidence for Iron-Catalyzed α-Phosphinidene Elimination with Phenylphosphine
Pagano, Justin K.,Ackley, Brandon J.,Waterman, Rory
, p. 2554 - 2557 (2018)
The ubiquitous half-sandwich iron complex [CpFe(CO)2Me] (Cp=η5-C5H5) appears to be a catalyst for α-phosphinidene elimination from primary phosphines. Dehydrocoupling reactions provided initial insight into this unusual reaction mechanism, and trapping reactions with organic substrates gave products consistent with an α elimination mechanism, including a rare example of a three-component reaction. The substrate scope of this reaction is consistent with generation of a triplet phosphinidene. In all, this study presents catalytic phosphinidene transfer to unsaturated organic substrates.
1,2-Phosphaborines: Hybrid Inorganic/Organic P-B Analogues of Benzene
Barnard, Jonathan H.,Brown, Paul A.,Shuford, Kevin L.,Martin, Caleb D.
, p. 12083 - 12086 (2015)
Photolysis of the cyclic phosphine oligomer [PPh]5 in the presence of pentaarylboroles leads to the formation of 1,2-phosphaborines by the formal insertion of a phenylphosphinidene fragment into the endocyclic C-B bond. The solid-state structur
GENERAL APPROACHES TO PHOSPHINIDENES VIA RETROADDITIONS
Li, Xinhua,Lei, Deqing,Chiang, Michael Y.,Gaspar, Peter P.
, p. 71 - 74 (2007/10/02)
Retroadditions - thermal and photochemical decomposition of phosphiranes and 3-phospholenes - offer general routes to free phosphinidenes.
General Approaches to Phosphinidenes via Retroadditions
Li, Xinhua,Lei, Deqing,Chiang, Michael Y.,Gaspar, Peter P.
, p. 8526 - 8531 (2007/10/02)
The retroaddition strategy for the generation of phosphinidenes involves thermal and photochemical decomposition of 1-arylphosphiranes and photolysis of 1-aryl-3-phospholenes.Evidence that free phosphinidenes are produced as reactive intermediates includes a lack of dependence of the conversion rate on precursor and substrate concentrations and the nature of the reaction products.These are best rationalized by the addition of phosphinidenes to carbon-carbon ?-bonds forming three-membered rings and the dimerization of phosphinidenes to diphosphenes.
Dialkylamino-phenyldi- and -triphosphides from the Degradation of (PhP)5 by Alkali Amides
Zirzow, Karl-Heinz,Schmidpeter, Alfred
, p. 1083 - 1087 (2007/10/02)
(PhP)5 and lithium dialkylamides in tetrahydrofuran form equilibrium mixtures of lithium aminophenylphosphides (PhP)nNR2(-) with n = 3 and (mainly) 2.The monophosphides (n = 1) are not formed; it is concluded that they are generally unstable, decomposing to aminodiphosphides and cyclophosphines.Alkylation of an equilibrium mixture gives 1-alkyl-2-dialkylamino-diphenyldiphosphines which, however, are thermally unstable. (PhP)5 degradation equilibria using different anionic nucleophiles are compared. - Key words: Cyclophosphines, Nucleophilic Degradation Equilibria, Aminophosphides, Diphosphines, 13C NMR Spectra
PHOTOCHEMICAL REACTIONS OF PHOSPHAALKENES
Meriem, Abdelkader,Majoral, Jean-Pierre,Revel, Monique,Navech, Jacques
, p. 1975 - 1978 (2007/10/02)
Photolysis of phosphaalkenes leads to an inversion of polarity of the phosphorus carbon double bond and to a cleavage into transient phosphinidene and carbene; unexpected alcoholysis of a PIII-C bond and the cycloaddition of a linear phosphaalkene on a diene are also reported.