205826-75-1Relevant academic research and scientific papers
Carbazolyl phosphorus ligand as well as preparation method and application thereof
-
Paragraph 0167; 0168; 0169; 0170; 0171; 0172, (2017/07/04)
The invention is suitable for the technical fields of organic compounds and synthesis, and provides a carbazolyl phosphorus ligand as well as a preparation method and application thereof. The carbazolyl phosphorus ligand is one of a compound 1, a compound 2 and a compound 3 with structures shown by a formula 1, a formula 2 and a formula 3 (shown in the description) respectively, wherein R1 is phenyl or alkyl, R2, R3, R4, R5, R6, R7, R8 and R9 independently are one of hydrogen, C5-C10 alkyl, methoxyl, oxymethyl, ethyoxyl, phenyl, fluorine group, and pyridyl; and R2, R3, R4, and R5 cannot be hydrogen at the same time.
Preparation of a highly congested carbazoyl-derived p,n-type phosphine ligand for acetone monoarylations
Fu, Wai Chung,Zhou, Zhongyuan,Kwong, Fuk Yee
, p. 1553 - 1558 (2016/06/09)
We report a newly developed carbazoyl-derived P,N-type phosphine ligand (L1) for the monoarylation of acetone with aryl chlorides. The proposed Pd(dba)2/L1 catalyst exhibited remarkable catalytic reactivity toward highly electron rich and sterically congested aryl chlorides, with catalyst loading as low as 0.1 mol % of Pd along with excellent chemoselectivity. A reaction rate study of the system using electronically diverse aryl chlorides determined the mechanisms regarding the rate-limiting steps in this reaction. The oxidative addition adduct of Pd-PhenCar-Phos with p-chlorotoluene showed the participation of N-Pd coordination in the metal complex. The isolated palladium complex C1 could be utilized as a precatalyst in the transformation and achieved performance comparable to that of the in situ generated palladium species.
DIALKYL(2-ALKOXY-6-AMINOPHENYL)PHOSPHINE, THE PREPARATION METHOD AND USE THEREOF
-
Paragraph 0073; 0074, (2014/10/29)
The present invention relates to the compound of dialkyl(2-alkoxy-6-aminophenyl)phosphine and the preparation method thereof and the application in the palladium catalyzed coupling reactions of aryl chloride and ketone. The dialkyl(2-alkoxy-6-aminophenyl)phosphine of the present invention could coordinate with the palladium catalyst to highly selectively activate the inert carbon-chlorine bond, and to catalyze direct arylation reaction in the α-position of ketones to produce corresponding coupling compounds. The preparation method of the present invention is a simple one-step method which produces the air-stable dialkyl(2-alkoxy-6-aminophenyl)phosphine. Compared with the synthetic routes of ligands to be used in the activation of carbon-chlorine bonds in the prior arts, the preparation method of the present invention has the advantages of short route and easy operation.
Zheda-phos for general α-monoarylation of acetone with aryl chlorides
Li, Pengbin,Lue, Bo,Fu, Chunling,Ma, Shengming
supporting information, p. 1255 - 1259 (2013/06/27)
A new, readily available, and air-stable monophosphine ligand, i.e., Zheda-Phos, has been developed for the general and highly effective palladium-catalyzed monoarylation of acetone with aryl chlorides. The reaction rate is of first-order dependence with the aryl chloride. Copyright
THE EFFECT OF ORTHO SUBSTITUENTS IN SRN1 REACTIONS. SOME SYNTHETIC APPLICATIONS.
Bunnett, Joseph F.,Mitchel, Eric,Galli, Carlo
, p. 4119 - 4132 (2007/10/02)
Several ortho-substituted iodobenzenes were allowed to react, via the SRNl mechanism, with mixtures of diethyl phosphite ion and pinacolone enolate ion.From product composition data, the relative reactivities of the two nucleophiles were reckoned.They represent relative reactivities in attachment to aryl radical intermediates.Most of the ortho effects are slight, but there is evidence that large ortho substituents hinder attachment of the phosphite more than the enolate nucleophile.The methoxy and diethoxyphosphoryl substituents, when para to the site of substitution, respectively favour and disfavour the phosphite with respect to the enolate ion.SRNl reactions of ortho-substituted halobenzenes are, for some substituents, followed by other reactions which afford products of synthetic interest.
