101-94-0Relevant articles and documents
Ion-exchange resin catalysis in benign synthesis of perfumery grade p-cresylphenyl acetate from p-cresol and phenylacetic acid
Yadav, Ganapati D.,Lande, Sharad V.
, p. 288 - 293 (2005)
p-Cresylphenyl acetate is a very important perfume that finds wide applications and possesses an organoleptic character similar to those of honey, nuts, and butter. It is produced by mineral acid-catalyzed esterification of p-cresol with phenylacetic acid. Use of homogeneous acid catalysts leads to posttreatment pollution problems apart from the quality-related issues. The current work is focused with an eco-friendly and benign catalytic process, employing the solid acid catalysts such as dodecatungstophosphoric acid (DTP) supported on K-10 clay, ion-exchange resins, sulfated zirconia, etc. for esterification of p-cresol with phenylacetic acid to p-cresylphenyl acetate. The order of catalytic activity was found to be Amberlyst-15 ≈ Indion-125 > 20% w/w DTP/K-10 > sulfated zirconia. Indion-125 was used for further experiments. It was observed that the catalyst has excellent reusability and that the reaction was 100% selective towards p-cresylphenyl acetate. A pseudo-first-order kinetic model was built up to fit the experimental data, and the apparent activation energy was found to be 9.56 kcal/mol.
Synthesis of 7-hydroxy-6H-naphtho[2,3-c]coumarinviaa TsOH-mediated tandem reaction
Li, Chenyu,Liang, Yong,Ma, Zhishuang,Wang, Ding,Wang, Nana,Wang, Tao,Zhang, Zunting
supporting information, p. 10369 - 10372 (2020/09/16)
A concise and efficient method for the synthesis of 7-hydroxy-6H-naphtho[2,3-c]coumarin using available 1-(2-hydroxyphenyl)-2-phenylethanone and Meldrum's acid has been developed. This transformation involved a tandem aldol reaction/lactonization/Friedel-Crafts reaction to form a lactone ring and a benzene ring. It showed high atom economy with water and acetone as the byproducts. Mechanism studies demonstrated two roles of Meldrum's acid: (i) as the reagent for the tandem reaction, and (ii) as the catalyst for the Friedel-Crafts reaction. Moreover, the hydroxyl group of 7-hydroxy-6H-naphtho[2,3-c]coumarin was further functionalized efficiently by arylethynyl, aryl, and cyano groups to furnish D-π-A compounds with excellent fluorescence emissions (ΦF= 0.14-0.78).
C-H Functionalization via Remote Hydride Elimination: Palladium Catalyzed Dehydrogenation of ortho-Acyl Phenols to Flavonoids
Zhao, Xiaomei,Zhou, Jiabin,Lin, Shuying,Jin, Xukang,Liu, Renhua
supporting information, p. 976 - 979 (2017/03/14)
Although deprotonation of electron-poor C-H bonds to carbon anions with bases has long been known and widely used in organic synthesis, the hydride elimination from electron-rich C-H bonds to carbon cations or partial carbocations for the introduction of nucleophiles is a comparatively less explored area. Here we report that the carbonyl β-C(sp3)-H bond hydrogens of ortho-acyl phenols could be substituted by intramolecular phenolic hydroxyls to form O-heterocycles, followed by dehydrogenation of the O-heterocycle into flavonoids. The cascade reaction is catalyzed by Pd/C without added oxidants and sacrificing hydrogen acceptors.
Direct esterification of carboxylic acids with p-cresol catalysed by acid activated Indian bentonite
Vijayakumar,Iyengar, Pushpa,Nagendrappa, Gopalpur,Prakash, B.S. Jai
, p. 1950 - 1953 (2007/10/03)
Acid activated Indian bentonite (AAIB) catalyst is used for the first time to esterify various carboxylic acids with p-cresol in average to excellent yields. Optimisation studies have been carried out for p-cresyl stearate synthesis. The catalyst is recoverable and recyclable.