623-72-3Relevant articles and documents
Method for preparing 3-hydracrylic acid ester derivative
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Paragraph 0053-0055, (2022/01/04)
The invention discloses a method for preparing a 3-hydracrylic acid ester derivative, which comprises the step of in the presence of an alcohol compound and a hydrodeoxygenation catalyst, reacting glyceric acid with hydrogen and the alcohol compound to obtain the 3-hydracrylic acid ester derivative, wherein the hydrodeoxygenation catalyst is a mixture of a supported metal catalyst and at least one supported metal oxide catalyst and/or at least one supported heteropolyacid catalyst. The method disclosed by the invention is green and environment-friendly, and the yield of the 3-hydracrylic acid ester derivative is high.
Preparation method of 3-oxetane carboxylic acid
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Paragraph 0065-0069, (2018/08/03)
The invention provides a preparation method of 3-oxetane carboxylic acid. The preparation method is characterized by carrying out hydrolytic esterification reaction, hydrogen pulling reaction and reduction reaction by taking 3-hydroxypropionitrile as a raw material, thus obtaining 2-benzyloxymethyl-1,3-propanediol; carrying out cyclization reaction, debenzylation reaction and oxidation reaction on2-benzyloxymethyl-1,3-propanediol, thus obtaining 3-oxetane carboxylic acid. According to the preparation method of 3-oxetane carboxylic acid, provided by the invention, a key intermediate 2-benzyloxymethyl-1,3-propanediol can be prepared just through three-steps reaction by taking 3-hydroxypropionitrile as the raw material, and 3-oxetane carboxylic acid can be prepared just through six-steps reaction in a final integral route, so that the reaction route is greatly shortened, and reaction steps are reduced; compared with a preparation method requiring ten-steps reaction in the prior art, theyield is higher, the operation is easy, and industrial production can be favorably realized.
Immobilization of Carbonylcobalt Catalyst by Poly(4-vinylpyridine) (P4VP) through N→Co Coordination Bonds: The Promotional Effect of Pyridine and the Reusability of Polymer Catalyst
Liu, Yu-Bing,Wang, Yi-Ning,Lu, Hai-Meng,Liang, Shuang,Xu, Bo-Lian,Fan, Yi-Ning
supporting information, p. 3159 - 3164 (2016/11/29)
A carbonylcobalt catalyst, immobilized by poly(4-vinylpyridine) (P4VP) through N→Co coordination bonds, has been prepared by solvothermal method. It has been revealed that the pyridine fragments in the polymer catalyst act not only as promoters to improve the catalytic performance of the carbonylcobalt catalyst for alkoxycarbonylation of ethylene oxide to methyl 3-hydroxypropanoate but also as stabilizers to enhance the reusability of the polymer catalyst. Furthermore, the polymer catalyst could be easily separated by filtration and reused with only a slight loss of catalytic efficiency.