1706-93-0

Upstream product

• 13025-85-9 cyclohexyl diphenylphosphinite 
• 719-80-2 Ethyl diphenylphosphinite 
• 108-93-0 cyclohexanol 
• 108-90-7 chlorobenzene 
• 1779-48-2 phenylphosphinic acid 
• 71-43-2 benzene 
• 4559-70-0 Diphenylphosphine oxide 
• 1707-03-5 diphenyl-phosphinic acid 
• 1706-90-7 methyl diphenylphosphinate 
• 1079-66-9 chloro-diphenylphosphine 
• 108678-42-8 Cyclohexyloxy-diethyl-borane 

Relevant academic research and scientific papers

Hydrolysis and alcoholysis of phosphinates and phosphonates

Phosphinic and phosphonic acids useful intermediates and biologically active compounds may be prepared from their esters: phosphinates and phosphonates, respectively, by acid-catalyzed hydrolysis either on conventional heating or on MW irradiation. The transesterification of alkyl phosphinates took place only in the presence of suitable ionic liquids as the catalysts. In the cases of phenylphosphonates, depending on the nature of the ionic liquid, the formation of the ester was accompanied by the fission of the C–O bond.

Tf2O/DMSO-Promoted P-O and P-S Bond Formation: A Scalable Synthesis of Multifarious Organophosphinates and Thiophosphates

A Tf2O/DMSO-based system for the dehydrogenative coupling of a wide range of alcohols, phenols, thiols, and thiophenols with diverse phosphorus reagents has been developed. This metal- and strong-oxidant-free strategy provides a facile approach to a great variety of organophosphinates and thiophosphates. The simple reaction system, good functional-group tolerance, and broad substrate scope enable the application of this method to the modification of natural products and the direct synthesis of bioactive molecules and flame retardants.

Preparation method of compound containing P-O bond or P-S bond

The invention discloses a preparation method of a compound containing a P-O bond or a P-S bond. The method comprises the following steps: a compound containing hydroxyl or sulfydryl and a phosphorus reagent are taken as initial raw materials; then, the initial raw materials are put into an inert gas atmosphere; and under the action of trifluoromethanesulfonic anhydride (Tf2O) and dimethyl sulfoxide (DMSO), the compound containing hydroxyl or sulfydryl, the phosphorus reagent, the trifluoromethanesulfonic anhydride and the dimethyl sulfoxide in a molar ratio of (1-5): (1-2.5): (2-3): 2 react inan organic solvent at the reaction temperature of 25-100 DEG C for 6-20 hours to obtain the compound with the structural general formula (I). The reagents used in the method are low in toxicity and environmentally friendly, and use of precious metal catalysts high in price and toxicity is avoided. The reagents trifluoromethanesulfonic anhydride (Tf2O) and dimethyl sulfoxide (DMSO) used in the method are low in toxicity and very low in cost, so that the method is green, environment-friendly, high in economy and suitable for large-scale production.

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).

Electrochemical Dehydrogenative Coupling of Alcohols with Hydrogen Phosphoryl Compounds: A Green Protocol for P?O Bond Formation

This study reports the environment-friendly electrochemical transformation of structurally diverse phosphorus compounds and alcohol into phosphonates in the presence of ammonium iodide as electrolyte and redox catalyst in acetonitrile at ambient temperature. This method for P?O bond formation exhibits remarkable features, such as transition metal- and oxidant-free conditions. A reliable mechanism is proposed after control and cyclic voltammetry experiments. (Figure presented.).

Manganese-Catalyzed and Mediated Synthesis of Arylphosphinates and Related Compounds

The free-radical arylation of H-phosphinates and related compounds was examined. A practical catalytic process with the air as the oxidant could not be found. However, an inexpensive and robust methodology was developed, using catalytic Mn(II) as the radi

DCC-assisted direct esterification of phosphinic and phosphoric acids with O-nucleophiles

A novel and efficient dicyclohexylcarbodiimide-promoted protocol for the selective and controllable esterification of P(O)OH compounds using O-nucleophiles (alcohols and phenols) as efficient esterification reagents is described. This method features a high efficiency and good functional-group tolerance, meaning a simple way to synthesize a broad spectrum of phosphinic and phosphoric acid esters from basic starting materials with moderate to excellent yields.

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.

Method for preparing organophosphate compound from P(O)-OH-containing compound and alcohol through efficient esterification

The invention provides a method for efficiently and highly selectively synthesizing an organophosphate derivative containing different substitute functional groups. The method is characterized by adopting a polypeptide catalyst as a condensation reagent, taking a P(O)-OH-containing compound and alcohol as reaction substrates, and adding an organic solvent in a reaction system. The method disclosed by the invention has the advantages that the catalyst is cheap in cost and easy to obtain; the substrate applicability is high; reaction conditions are mild, safe and reliable; the selectivity of an obtained target product is close to 100 percent, and the yield is up to 90 percent or more. According to the method provided by the invention, the defects of a traditional method for synthesizing an organophosphate compound that the reaction selectivity is poor, the reaction steps are tedious, the yield is low, reagents which are harmful to the environment are required to be used, and the like are solved, and a good industrial application prospect is obtained. Meanwhile, the invention also provides the corresponding organophosphate derivative containing different substitute functional groups.

Perfluoroalkanosulfonyl fluoride-assisted Atherton–Todd-like reaction of diphenylphosphine oxide with alcohols under air generating diphenylphosphinate esters

An efficient method for the synthesis of diphenylphosphinate esters via the Atherton–Todd-like reaction of diphenylphosphine oxide with alcohols assisted by perfluoroalkanosulfonyl fluoride in the presence of triethylamine under air is achieved affording the corresponding diphenylphosphinate esters in moderate to good yields of 52–78%. The protocol features the use of non-toxic and stable perfluoroalkanosulfonyl fluoride and metal-free reaction conditions.