102767-82-8Relevant academic research and scientific papers
Base-promoted selective O-phosphorylation of aryl triflates with P(O)-H compounds
Wang, Mingyue,Yang, Jia,Wang, Shuai,Zhong, Hong
, (2020)
Compared to previous transition metal-catalyzed C-phosphorylation reactions for constructing C–P bonds, in the absence of transition metal catalysts and ligands, a direct O-phosphorylation of aryl triflates selectively occurred with P(O)-H compounds in the presence of a base via the construction of O–P bonds. This transformation proceeds under simple and mild conditions, and provides a new method for the preparation of valuable organophosphoryl compounds from readily available P(O)-H compounds and triflates.
Phosphonate compound, preparation method and application thereof
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Paragraph 0098-0100, (2020/04/02)
The invention provides a phosphonate compound, a preparation method and application thereof. The method includes the steps of: in a nitrogen atmosphere, mixing a P(O)-H compound, an aryl trifluoromethanesulfonate compound, an alkali reagent and an organic solvent, carrying out stirring reaction at 80-130DEG C for 15-24h, and conducting cooling, washing and extraction at the end of reaction to obtain an organic phase; drying and distilling the obtained organic phase to obtain the phosphonate compound; wherein the molar ratio of the P(O)-H compound, the aryl trifluoromethanesulfonate compound and the alkali reagent is 1-3:1:2-3. The method has the advantages of simple and easily available raw materials, simple reaction conditions, wide functional group compatibility, high yield and wide applicability, the structural formula of the obtained phosphonate compound is shown as formula (I) in the specification, and the extraction rate of the phosphonate compound applied to the field of lithiumion extraction is 53% or above.
DCC-assisted direct esterification of phosphinic and phosphoric acids with O-nucleophiles
Xiong, Biquan,Wang, Gang,Zhou, Congshan,Liu, Yu,Li, Jiandong,Zhang, Pangliang,Tang, Kewen
supporting information, p. 239 - 244 (2017/11/20)
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.
CDI-promoted direct esterification of P(O)-OH compounds with phenols
Xiong, Biquan,Hu, Chenghong,Li, Haotian,Zhou, Congshan,Zhang, Pangliang,Liu, Yu,Tang, Kewen
supporting information, p. 2482 - 2486 (2017/05/31)
A novel and efficient N,N′-carbonyl diimidazole-catalyzed protocol for the direct esterification of P(O)-OH compounds using phenols as efficient esterification reagents is illustrated. It is a simple way to synthesis a broad spectrum of functionalized O-aryl phosphinates, phosphonates, and phosphates from basic starting materials with moderate to excellent yields.
Method for preparing organophosphate compound through efficient esterification of P(O)-OH-containing compound and phenol
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Paragraph 0038, (2017/09/01)
The invention provides a method for preparing an organophosphate compound through efficient esterification of a P(O)-OH-containing compound and phenol. The method realizes efficient and highly selective synthesis of organophosphate derivatives containing
Method for preparing phosphinic acid ester/phosphorous acid ester/phosphoric acid ester from P(O)-OH compound and aryl boronic acid
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Paragraph 0020; 0021, (2016/10/10)
The invention provides a method for high-selectivity synthesis of phosphinic acid ester/phosphorous acid ester/phosphoric acid ester derivatives containing different substituted functional groups; a metal salt is used as a catalyst, a P(O)-OH-containing compound and aryl boronic acid are used as reactants, and an alkali, an additive and an organic solvent are added into the reaction system. The method has the advantages that the catalyst is cheap and easy to obtain; the reaction conditions are mild, and the method is safe and reliable; the selectivity of the obtained target product is close to 100%, and the yield is as high as 90% or more. The method solves the deficiency that traditional synthetic phosphinic acid ester/phosphorous acid ester/phosphoric acid ester compounds have poor reaction selectivity, complex reaction steps and low yield and need to use reagents harmful to the environment, and has a good prospect in industrial application. The invention also provides the corresponding phosphinic acid ester/phosphorous acid ester/phosphoric acid ester derivatives correspondingly containing different substituted functional groups.
Copper-catalyzed direct esterification of P(O)-OH compounds with phenols
Xiong, Biquan,Zeng, Kui,Zhang, Shanshan,Zhou, Yongbo,Au, Chak-Tong,Yin, Shuang-Feng
supporting information, p. 9293 - 9298 (2015/11/27)
A novel copper-catalyzed method for the direct esterification of P(O)-OH compounds using phenols as efficient esterification reagents is illustrated. It is a simple way to generate a broad spectrum of functionalized O-aryl phosphinates, phosphonates, and phosphates from basic starting materials with moderate to excellent yields.
