151607-36-2Relevant academic research and scientific papers
Chemical synthesis method of salidroside
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Paragraph 0019-0021; 0026-0028; 0033-0034, (2019/03/28)
The invention discloses a synthesis method of salidroside, wherein a phenolic hydroxyl group of a tyrosol is protected by a benzoyl group to carry out an acylation reaction, and beta-D-pent-acetyl glucose is used as a raw material and a glycosylation reaction is performed under the catalyst of zinc chloride and deprotection is performed in a methanol system of sodium methoxide. The synthesis method optimizes the synthesis route of salidroside, shortens the reaction steps, and improves the yield and the reaction conditions are mild, the operation is simple and easy, and the production cost is greatly reduced.
Preparation method for synthesis of phenolic ester through thiocarboxylic acid mediated visible light catalyzed phenol acylation reaction
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Paragraph 0017; 0018; 0062; 0063; 0064, (2018/07/30)
The invention discloses a preparation method for synthesis of phenolic ester through a thiocarboxylic acid mediated visible light catalyzed phenol acylation reaction. Thiocarboxylic acid compounds andphenol compounds are subjected to a site specific reaction under certain conditions to produce phenolic ester compounds, wherein the certain conditions are as follows: under the conditions of normaltemperature, normal pressure and visible light, K2CO3 is used as an alkaline catalyst, terpyridyl ruthenium dichloride hexahydrate is used as a photosensitizer and acetonitrile is used as a reaction solvent. Synthesis of phenolic ester under catalysis of visible light is realized, thiocarboxylic acid is used as an acylation reagent, and the site specific phenol esterification reaction is realizedefficiently under mild conditions of normal temperature, normal pressure and visible light. The method has mild reaction conditions, large substrate functional group tolerance, high applicability andhigh yield, and an efficient, reliable and economical preparation method is provided for synthesis of phenolic ester.
Diacyl Disulfide: A Reagent for Chemoselective Acylation of Phenols Enabled by 4-(N,N-Dimethylamino)pyridine Catalysis
Liu, Hong-Xin,Dang, Ya-Qian,Yuan, Yun-Fei,Xu, Zhi-Fang,Qiu, Sheng-Xiang,Tan, Hai-Bo
supporting information, p. 5584 - 5587 (2016/11/17)
A general and excellent acylation reagent, diacyl disulfide, was uncovered for efficient ester formation enabled by DMAP (4-(N,N-dimethylamino)pyridine) catalysis. This protocol offered a promising synthetic platform on site-selective acylation of phenolic and primary aliphatic hydroxyl groups, which greatly expanded the realm of protecting group chemistry. The importance of the reagent was also reflected by its excellent moisture tolerance, high efficiency, and potential in synthetic chemistry and biologically meaningful natural product modification.
COMPOUNDS USEFUL IN THE TREATMENT OF NEOPLASTIC DISEASES
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, (2015/04/15)
The present invention refers to compounds of formula: (formula A), wherein R1 is selected from (formula I), (formula II), (formula (III), (formula IV), (formula V), or (formula B), and wherein R2, R3, R4 and Rs
Selective acylation of the phenolic hydroxyl of (hydroxyalkyl)phenols by using vinyl carboxylates as acyl donors in the presence of rubidium fluoride
Miyazawa, Toshifumi,Yamamoto, Masato,Danjo, Hiroshi
, p. 1351 - 1354 (2013/10/01)
Highly selective acylation of the phenolic hydroxy group can be achieved with (hydroxyalkyl)phenols carrying both alcoholic and phenolic hydroxyls by the use of vinyl carboxylates as acyl donors in the presence of rubidium fluoride.
