84350-74-3Relevant academic research and scientific papers
Palladium-Catalyzed C-P Bond-Forming Reactions of Aryl Nonaflates Accelerated by Iodide
McErlain, Holly,Riley, Leanne M.,Sutherland, Andrew
, p. 17036 - 17049 (2021/11/18)
An iodide-accelerated, palladium-catalyzed C-P bond-forming reaction of aryl nonaflates is described. The protocol was optimized for the synthesis of aryl phosphine oxides and was found to be tolerant of a wide range of aryl nonaflates. The general nature of this transformation was established with coupling to other P(O)H compounds for the synthesis of aryl phosphonates and an aryl phosphinate. The straightforward synthesis of stable, isolable aryl nonaflates, in combination with the rapid C-P bond-forming reaction allows facile preparation of aryl phosphorus target compounds from readily available phenol starting materials. The synthetic utility of this general strategy was demonstrated with the efficient preparation of an organic light-emitting diode (OLED) material and a phosphonophenylalanine mimic.
NiCl 2as a Cheap and Efficient Precatalyst for the Coupling of Aryl Fluorosulfonate and Phosphite/Phosphine Oxide
Yan, Wenjie,Zhou, Hongbo,Li, Haoyuan,Hu, Huimin,Yu, Ying,Guo, Shengmei,Cai, Hu
, p. 1453 - 1456 (2021/07/20)
Herein, NiCl 2is employed as a cheap precatalyst in the formation of C(sp 2)-P bond via cross-coupling reaction of phenol derivatives and phosphine oxides/phosphites. This catalytic system allows a variety of phenols with diverse functional groups to transform into phosphates with good yields. No additional additive is used in this reaction.
Phosphides and Arsenides as Metal-Halogen Exchange Reagents. Part 2. Reactions with Aromatic Dihalides
Gillespie, Donal G.,Walker, Brian J.,Stevens, David,McAuliffe, Charles A.
, p. 1697 - 1703 (2007/10/02)
1,2-Dihalogenobenzenes react with two molar equivalents of lithium diphenylphosphide in the presence of furan to give, after oxidation, triphenylphosphine oxide (major) and the corresponding 2-halogenophenyldiphenylphosphine oxide.No trace of furan-dehydrobenzene adduct was observed in these reactions; however, 1- and 2-naphthyldiphenylphosphine oxides (9:4) were detected.These compounds were the major products from the reaction of the furan-dehydrobenzene adduct with diphenylphosphide, although the ratio of 1- to 2-isomers was quite different (1:9) in this case.Reaction of lithium diphenylphosphide with 3,4-dichloronitrobenzene gave tetrachloroazobenzene (40percent) as the only isolated product and attempts to replace 1,2-dihalogenobenzenes with 2-halogenobenzenediazonium salts gave much lower yields of products.Although dehydrobenzene is thought to be involved in many of these reactions, alternative mechanisms also operate, depending on the halides used.The reaction of lithium diphenylarsenide with 1,2-dihalogenobenzenes gave triphenylarsine as the major product and it seems likely that similar mechanisms to those involved in reactions of diphenylphosphide are operating.Surprisingly, dehydrobenzene-furan adduct reacted with diphenylarsenide to give naphthalene in high yield.
SYNTHESE UND NMR-UNTERSUCHUNGEN VON 2-FLUOR-TRIPHENYLPHOSPHINEN UND IHREN DERIVATEN
Stegmann, H. B.,Kuehne, H.-M.,Wax, G.,Scheffler, K.
, p. 331 - 336 (2007/10/02)
2-Fluorophenyllithium reacts with chloro-phenyl-phosphines PH3-nPCln, n=1,2,3 to give diphenyl-(2-fluorophenyl)phosphine 1, bis-(2-fluorophenyl)phenyl-phosphine 2 and tris-(2-fluorophenyl)phosphine 3.The new compounds and their oxide
