55025-89-3

Upstream product

• 110-91-8 morpholine 
• 10259-20-8 4-nitrophenyl diphenylphosphinate 
• 1499-21-4 Diphenylphosphinic chloride 
• 75599-76-7 2,4-dinitrophenyl diphenylphosphinate 
• 4559-70-0 Diphenylphosphine oxide 
• 1452757-48-0 N-benzoyloxylmorpholine 
• 824-72-6 P,P-dichlorophenylphosphine oxide 

Relevant academic research and scientific papers

Trans influence and covalent bonding in a new octahedral lanthanum(III) complex of diphenylmorpholinyl phosphinamide

The ligand (C6H5)2P(O)NC4H 8O (L) was synthesized and used to prepare new octahedral complex mer-[(C6H5)2(NC4H 8O)PO]3LaCl3

Practical Synthesis of Phosphinic Amides/Phosphoramidates through Catalytic Oxidative Coupling of Amines and P(O)?H Compounds

Herein, we report a highly efficient ZnI2-triggered oxidative cross-coupling reaction of P(O)?H compounds and amines. This operationally simple protocol provides unprecedented generic access to phosphinic amides/phosphoramidate derivatives in good yields and short reaction time. Besides, the reaction proceeds under mild conditions, which avoids the use of hazardous reagents, and is applicable to scale-up syntheses as well as late-stage functionalization of drug molecules. The stereospecific coupling is also achieved from readily available optically enriched P(O)?H compounds.

A phosphoryl radical-initiated Atherton-Todd-type reaction under open air

A phosphoryl radical-initiated Atherton-Todd-type reaction using air as the radical initiator and CHCl3 as the halogenating reagent for the phosphorylation of alcohols, phenols, and amines has been developed. This novel transformation provides a highly efficient route to important phosphinates, phosphinic amides, and phosphoramidates in up to 99% yield with a broad substrate scope under very mild conditions (48 examples).

Method for synthesis of organophosphorus compound by photo-induced iodine catalyzed Atherton-Todd reaction

The invention belongs to the technical field of organic synthesis, discloses a method for synthesis of organophosphorus compound by photo-induced iodine catalyzed Atherton-Todd reaction. The method comprises the following steps: a compound shown as formula II and a nucleophilic reagent are subjected to reaction for 24 hours in a dichloromethane solvent, an oxygen atmosphere, under irradiation condition of room temperature and the action of a halogenated reagent I2, then the organophosphorus compound shown as the formula II is obtained through washing, drying, separating and purifying. According to the the method provided by the invention, compared with traditional Atherton-Todd reaction, no catalysis of metal is needed,no addition of alkali is needed, reaction environment such as metal, high temperature and strong base is replaced, a series of organophosphorus compounds can be synthesized by catalyzing a variety of substrates under the irradiation condition of room temperature, and hasthe advantages of good universality, short reaction time and higher yield.

Efficient electrosynthesis of phosphinic amides via oxidative cross-coupling between N-H/P-H

A facile and efficient approach to phosphinic amides was developed from diarylphosphine oxides and amines via electrosynthesis. A variety of phosphinic amides were obtained in one step with good to excellent yields under mild and metal-free conditions. Th

A Catalyst-Free Synthesis of Phosphinic Amides Using O-Benzoylhydroxylamines

A practical approach for the synthesis of phosphinic amides via the coupling of secondary phosphine oxides (SPOs) with O-benzoylhydroxylamines has been reported. Simply heating the mixture of SPOs and O-benzoylhydroxylamines in the presence of K2/su

Investigations on synthesis, thermolysis, and coordination chemistry of aminophosphine oxides

Some aminophosphine oxides (AmPOs), (R1)(R2)(R 3)P=O [R1=R2=R3= HNCH 2CH=CH2; R1= R2=Ph, R 3=HNCH2CH=CH2; R

Direct conversion of secondary phosphine oxides and h-phosphinates with [Di(acyloxy)iodo]benzenes to phosphinic and phosphonic amides

The reaction of [di(acyloxy)iodo]- benzene with secondary phosphine oxides or H-phosphinates in the presence of primary or secondary amines allows one to obtain phosphinic or phosphonic acids amides in the one-pot process. We take advantage of the strong acylating system DAIB/R2P(O)H to phosphinylation of amines. However, the reaction mechanism is multipathway and causes yields of phosphinic or phosphonic acids amides to be moderate. When the concentration of amines is low, the intermolecular process plays a main role leading to the formation of carboxylic amides through mixed phosphoric-carboxylic anhydride, and also in the low concentration of amines, tetrahydrofuran effectively competes with the amines in the nucleophilic attack on the acylating intermediates.

Aminolysis of Y-substituted phenyl diphenylphosphinates and benzoates: Effect of modification of electrophilic center from C=O to P=O

(Chemical Equation Presented) The effect of modification of the electrophilic center from C=O to P=O on reactivity and reaction mechanism has been investigated for aminolysis of Y-substituted phenyl diphenylphosphinates (1a-j) and benzoates (2a-i). The phosphinates 1a-j are less reactive than the benzoates 2a-i. The reactions of 2,4-dinitrophenyl diphenylphosphinate (1a) with alicyclic secondary amines resulted in a linear Bronsted-type plot with a βnuc value of 0.38, while the corresponding reactions of 2,4-dinitrophenyl benzoate (2a) yielded a curved Bronsted-type plot. Similarly, a linear Bronsted-type plot with a β1g value of -0.66 was obtained for the reactions of 1a-j with piperidine, while the corresponding reactions of 2a-i gave a curved Bronsted-type plot. The linear Bronsted-type plots for the reactions of 1a-j have been taken as evidence for a concerted mechanism, while the curved Bronsted-type plots for the reactions of 2a-i have been suggested to indicate a change in the rate-determining step of a stepwise mechanism. The Hammett plot for the reactions of 1b-j exhibited a poor correlation with σ- constants (R2 = 0.962) but slightly better correlation with σo (R2 = 0.986). However, the Yukawa-Tsuno plot for the same reactions resulted in an excellent correlation (R2 = 0.9993) with an r value of 0.30. The aminolysis of 1a-j has been suggested to proceed through a concerted mechanism with an early transition state on the basis of the small βnuc and small r values.

Organic phosphorus compounds 106.1 a 31P-NMR study of phosphinous-, phosphinic-, and thiophosphinic amides

The synthesis, physical, chemical and spectroscopic properties of eight different types of phosphinous-, phosphinic-and thiophosphinic amides are reported. It is shown that the 31P-chem. shifts of tertiary amides are at lower magnetic field than that of secondary amides. As an exception, in the bis(tertiary butyl) series this trend is reversed.