115115-93-0Relevant articles and documents
A L - dibenzoyl tartaric acid for the preparation of dimethyl
-
Paragraph 0024; 0030-0033; 0034; 0040-0043; 0050-0053, (2019/03/23)
The invention belongs to the technical field of chemical synthesis method, in particular to a L - dibenzoyl tartaric acid for the preparation of dimethyl, the L - dibenzoyl tartaric acid for the preparation of dimethyl, comprises the following steps: S1, to L - tartaric acid, benzoyl chloride, thionyl chloride as the raw material, Lewis acid as catalyst, toluene as the solvent, through esterification, Anhydrized reaction, purification L - dibenzoyl tartaric acid [...]; S2, will be L - dibenzoyl tartaric acid [...] in pure water in the hydrolysis to obtain L - dibenzoyl tartaric acid hydrate wet product; S3, L - dibenzoyl tartaric acid hydrate the wet product in methanol and catalyst under the action of the esterification reaction, purify to get the L - dibenzoyl tartaric acid dimethyl ester. The invention the raw materials used are cheap and easy to obtain, mild reaction conditions, to recycle the methanol can be used repeatedly, after treatment is convenient, and is suitable for industrial production, it is worth.
Reduction of diesters of 1,2-diols. Regioselective C-O bond cleavage of the anionic forms
Macias-Ruvalcaba, Norma A.,Moy, Cheryl L.,Zheng, Zi-Rong,Evans, Dennis H.
, p. 4829 - 4834 (2007/10/03)
The electrochemical reduction of benzoate diesters of glycols has been studied in acetonitrile and N,N-dimethylformamide as solvents. The reductions occur in two closely spaced one-electron steps, and it was found that the dianion diradicals decompose by one of two routes, depending on the substituents on the ethylene moiety: cleavage of two benzoates to produce alkene or formation of benzil by way of a postulated cyclic intermediate to produce also the dianion of the diol. These correspond to cleavage of the R-OC(O)Ar bonds and the RO-C(O)Ar bonds, respectively. When the radical formed by the former cleavage is a primary or secondary radical, the reaction is too slow to compete with the latter reaction that produces benzil. However, when that radical is either tertiary or benzylic, the former cleavage reaction is fast and no benzil is detected. The dianions of p-cyano- and p-nitrobenzoate esters are rather stable on the voltammetric time scale. However, the addition of lithium ions results in detectable formation of 4,4′-dicyanobenzil from four different p-cyanobenzoate diesters.