24758-55-2Relevant academic research and scientific papers
Organophosphorus chemistry without PCl3: A bridge from hypophosphorous acid to H-phosphonate diesters
Fisher, Henry C.,Prost, Lucie,Montchamp, Jean-Luc
, p. 7973 - 7978 (2013)
A process for the conversion of hypophosphorous acid (H3PO 2, HPA) and alcohols into various H-phosphonate diesters [(RO) 2P(O)H] is described. The new reaction provides a missing bridge between HPA and important H-phosphonates, completely avoiding the use of PCl3. Nickel chloride or nickel on silica catalyze the oxidative phosphorylation of alkyl phosphinates with various alcohols or water. The reaction is atom economic and avoids the formation of waste products. The previous need for both chlorine and base is completely avoided. Esterification of hypophosphorous acid followed by reaction with another molecule of alcohol under the action of a nickel catalyst provides a green method for the preparation of H-phosphonates. This method entirely avoids the need for any stoichiometric chloride unlike those based on phosphorus trichloride. Copyright
Method for preparing phosphite diester by transesterification
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Paragraph 0024, (2020/01/25)
The invention discloses a method for preparing phosphite diester by transesterification. Dimethyl phosphite and monohydric alcohol which are used as raw materials are stirred, reacted and rectified under the action of a basic catalyst to prepare the phosphite diester, so the problems of high deice requirements and large amount of acid-containing three wastes in the process of producing the phosphite diester by reacting phosphorus trichloride with alcohol are avoided. The method has the advantages of low raw material toxicity, simple process, mild reaction conditions, low device requirements, low pollution, high raw material conversion rate, high product selectivity, stable supply of the raw materials, provision of the phosphite diester used for fine chemical engineering or medical intermediates by dimethyl phosphite production enterprises, high added values of the product, and provision of a new way for the synthesis of the phosphite diester.
Synthesis of H-Phosphonate Intermediates and Their Use in Preparing the Herbicide Glyphosate
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Paragraph 0036; 0044; 0051, (2014/10/16)
The esterfication of hypophosphorous acid is followed by reaction with another molecule of alcohol under the action of a nickel catalyst to provide a green method for the preparation of H-phosphonate diesters. This method avoids the need for any stoichiometric chlorine unlike those based on phosphorous trichloride.
