533-31-3Relevant articles and documents
Design and synthesis of 3,4-methylenedioxy-6-nitrophenoxyacetylhydrazone derivatives obtained from natural safrole: New lead-agents with analgesic and antipyretic properties
Bezerra-Netto, Heleno J.C.,Lacerda, Daniel I.,Miranda, Ana Luisa P.,Alves, Helio M.,Barreiro, Eliezer J.,Fraga, Carlos A.M.
, p. 7924 - 7935 (2006)
In this work, we reported the synthesis and evaluation of the analgesic, anti-inflammatory, and antipyretic properties of new 2-(6-nitro-benzo[1,3]dioxol-5-yloxy)-acetylhydrazone derivatives (3), designed exploring molecular hybridization and isosteric replacement approaches between nimesulide (1) and carbanalogue NAH series (2) developed at LASSBio. Target compounds were synthesized in very good yields exploiting abundant Brazilian natural product safrole (4) as starting material. The evaluation of the antinociceptive properties of this series led us to discover a new potent prototype of analgesic and antipyretic agent, that is, NAH derivative 3c, named LASSBio-891, which showed to be more potent than dipyrone used as standard.
Synthesis process 3,4 -methylenedioxy phenol
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Paragraph 0027; 0031; 0033; 0037; 0038; 0042; 0043; ..., (2021/10/30)
The invention relates to the technical field of compound synthesis, in particular to a synthesis process of 3,4 -methylenedioxy phenol, which comprises the following steps: 3,4 - methylenedioxy acetophenone. The second Catalyst, first solvent was added to the autoclave, and an oxidant was added, and reacted 25 - 50 °C under 4 - 8h, and the first solvent was separated and the solvent was separated. The resulting 3,4 -methylenedioxy phenol acetate is obtained. The second Solvent, sodium hydroxide solution was added to the autoclave, and reacted 20 - 60 °C at 2 - 6h, adjusted pH to 3-6 to obtain 3,4 - methylenedioxy phenol. The method solves the problems that 3,4 -methylenedioxy acetophenone in the prior art is low in yield and large in separation difficulty in preparation of sesame phenol. The process takes the pepper ring as the starting raw material and is divided into three-step reaction synthesis, the raw material conversion rate is high, no other side reaction is avoided, the reaction condition is mild, the production cost is low, and the product quality is better.
Preparation method of sesamol
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Paragraph 0022; 0026; 0032-0035, (2021/11/21)
The invention belongs to the technical field of compound synthesis, and particularly relates to a preparation method of sesamol, which firstly prepares 2 -chloro -1, 4 -diphenol, and then 2 - chlorine -1, 4 -biphenol and sodium hydroxide in an aqueous solution to obtain the sesamol, namely 1 2, 1 2 4 - 4 -triphenol and dichloromethane. The invention provides a new method for preparing the sesame phenol, and the yield of the sesamol is remarkably improved.
Method for preparing alcohol and phenol through aerobic hydroxylation reaction of boric acid derivative in absence of photocatalyst
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Paragraph 0025-0028; 0030-0032, (2020/01/25)
The invention discloses a method for preparing alcohol and phenol through aerobic hydroxylation reaction of a boric acid derivative in the absence of a photocatalyst, wherein the boric acid derivativeis aryl boronic acid or alkyl boronic acid, and the corresponding target compounds are respectively a phenol-based compound and an alcohol-based compound. According to the method, by using a boric acid derivative as a reaction substrate, an additive is added under a solvent condition, and a hydroxylation reaction is performed under aerobic and illumination conditions to obtain a corresponding target compound. According to the invention, the new strategy is provided for the synthesis of phenols through aerobic hydroxylation of aryl boronic acid without a photocatalyst; the catalyst-free aerobic hydroxylation method for photocatalysis of aryl boronic acid or alkyl boronic acid by using triethylamine as an additive is firstly disclosed; and the new method has advantages of photocatalyst-freecondition, wide substrate range and good functional group compatibility.