5573-42-2Relevant articles and documents
Bu4NI-Catalyzed Dehydrogenative Coupling of Diaryl Phosphinic Acids with C(sp3)-H Bonds of Arenes
Xiong, Biquan,Wang, Gang,Zhou, Congshan,Liu, Yu,Zhang, Panliang,Tang, Kewen
, p. 993 - 999 (2018)
An efficient phosphorylation of C(sp3)-H bonds of arenes with diaryl phosphinic acids via Bu4NI-catalyzed dehydrogenative coupling has been developed. This transformation proceeds efficiently under transition-metal-free reaction conditions and represents a straightforward method to prepare valuable organophosphorus compounds from readily available arenes and diaryl phosphinic acids.
A solvent-free method for the preparation of phosphinates from P(O)-OH compounds with alkyl chlorides
Yuan, Huihui,Wang, Mingyue,Fan, Lei,Yang, Jia,Wang, Shuai,Zhong, Hong
supporting information, (2021/11/17)
Herein, a new solvent-free synthetic method using P(O)-OH compound and alkyl chloride for phosphinate compounds is disclosed. This transformation proceeds smoothly under the promotion of a lone base and presents the advantages of an easily available raw material source, a simple post treatment process, good functional group tolerance and high reaction efficiency. Good yield was obtained when the reaction was magnified to gram scale, and the molar ratio of P(O)-OH compounds and alkyl chlorides can be decreased to 1:2. This protocol provides a practical method for the preparation of phosphorus derivatives. Furthermore, the reaction mechanism was explored by means of 31P NMR.
Novel method for preparing phosphonate through oxidative dehydrogenation coupled reaction of copper-catalyzed diarylphosphine oxide and alcohol
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Paragraph 0016, (2020/12/14)
The invention provides a method for efficiently and highly selectively synthesizing phosphonate derivatives containing different substituted functional groups. According to the method, cuprous iodideis used as a catalyst, 2,2'-dipyridyl is used as a ligand, pyridine is used as an alkali, oxygen is used as an oxidant, diarylphosphine oxide and an alcohol compound are used as reaction substrates, and an organic solvent is added into a reaction system. The method has the advantages that the catalyst and the oxidant are cheap and easily available; substrate applicability is high; reaction conditions are mild, safe and reliable; the selectivity of the obtained target products is close to 100%; and the yield of the target products is as high as 90% or above. The method overcomes the defects ofpoor reaction selectivity, complex reaction steps, low yield, need for reagents harmful to the environment and the like in the traditional synthesis of phosphonate derivatives, and has favorable industrial application prospects. The invention also provides the corresponding phosphonate derivatives containing different substituted functional groups.