- Lithium salt compound, preparation method thereof and lithium ion battery electrolyte containing lithium salt compound
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The invention provides a preparation method of a lithium salt compound, which comprises the following steps: adding alkylphosphite dialkyl ester into a protic solvent, uniformly mixing, and adding alkyl acrylate while stirring to react, thereby obtaining a compound A; adding an acid solution A into the compound A, carrying out a heating reflux reaction, adding acetone after the reaction is completed, and crystallizing to obtain a compound B; adding an alcoholic solution and an acid solution B into the compound B for esterification to obtain a compound C; adding an alcoholic solution into the compound C, uniformly stirring, then adding a lithium source, stirring for reaction, and concentrating and crystallizing after the reaction is finished, so as to obtain the lithium salt compound. The invention also provides a lithium ion battery electrolyte containing the lithium salt compound. The lithium salt compound prepared by the method provided by the invention has flame retardance and goodconductivity, and the lithium ion battery electrolyte composed of the lithium salt compound is stable in performance, safe and reliable.
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Paragraph 0073-0075
(2020/10/04)
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- A 3 - (methyl alkoxythiophene phosphoryl) propionic ester preparation method of compound
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The invention discloses a method for preparing 3-(methyl alkoxy phosphoryl group) propionate compound. Methyl phosphorous acid dialkyl and acrylate are taken as the raw material, and the reaction is carried out in a nonaqueous secondary solvent so as to obtain the 3-(methyl alkoxy phosphoryl group) propionate. According to the method, the Methyl phosphorous acid dialkyl and acrylate are taken as the raw material, the reaction solvent is the nonaqueous secondary solvent such as alcohol, carboxylic acid, and the like, besides being used as the solvent, the nonaqueous secondary solvent also can be reacted with alkyl anions generated in the reaction process so as to generate corresponding ether or carboxylic ester, the two alkoxy in the 3-(methyl alkoxy phosphoryl group) propionate are from methyl phosphorous acid and dialkyl and acrylate respectively, therefore, the method can be used for synthetizing the 3-(methyl alkoxy phosphoryl group) propionate with different alkoxy according to requirements, the reaction does not need to be carried out under anhydrous and anaerobic condition, the content of the product prepared by the method is more than 98%, and the yield of the product is over 95%.
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Paragraph 0019; 0020
(2017/02/28)
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- Synthesizing method of 3-(alkoxy methyl phosphoryl) propionic ester, analogue and phosphinothricin
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The invention discloses a synthesizing method of 3-(alkoxy methyl phosphoryl) propionic ester, analogue and phosphinothricin. The method is characterized in that 3-(methyl halogenated phosphoryl) propionyl halide is used as raw material, the 3-(methyl hal
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Paragraph 0022; 0023
(2016/12/22)
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- Enantioselective Synthesis of Both Enantiomers of Phosphinothricin via Asymmetric Hydrogenation of α-Acylamido Acrylates
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Both enantiomers of phoshinothricin (1), a naturally occuring amino acid that contains the unique methylphosphinate moiety, were prepared by asymmetric hydrogenation of α-acylamido acrylate precursors 7.L-1 and peptides containing L-1 are inhibitors of the enzyme glutamine synthetase (GS).Inhibition of GS is responsible for the antibiotical and herbicidal properties of these compounds.Synthesis of substrates 7 and parameters influencing the enantioselectivity are discussed.Substrate concentration and solvent polarity appear to have the most marked effects on enantiomeric excesses for a given catalyst system.Enantiomeric excesses reach 91percent for hydrogenations with (R,R)-NORPHOS- and (S,S)-CHIRAPHOS-derived catalysts.
- Zeiss, Hans-Joachim
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p. 1783 - 1788
(2007/10/02)
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