Highly selective synthesis of mono-ethylene glycol phenyl ethers via hydroxyalkoxylation of phenols by cyclic carbonates using large pore zeolites

Kinage, Anil K. ; Gupte, Sunil P. ; Chaturvedi, Rajiv K. ; Chaudhari, Raghunath V. (2008) Highly selective synthesis of mono-ethylene glycol phenyl ethers via hydroxyalkoxylation of phenols by cyclic carbonates using large pore zeolites Catalysis Communications, 9 (7). pp. 1649-1655. ISSN 1566-7367

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Official URL: http://linkinghub.elsevier.com/retrieve/pii/S15667...

Related URL: http://dx.doi.org/10.1016/j.catcom.2008.01.019

Abstract

Hydroxyalkoxylation of phenols by cyclic carbonates catalyzed by alkali loaded large pore zeolites has been reported. The study shows that KL type zeolite was recyclable and selective in producing mono-ethylene glycol phenyl ethers in ~98.5% yield. Various substituted simple phenols were converted into mono-ethylene glycol ether of phenols with over 90% yields, except 3-bromo and 2-methyl phenols. Mono hydroxyl phenols such as hydroquinone, biphenol and BPA (2,2-bis(4-hydroxyphenyl)propane) also produce corresponding mono- and di-ethylene glycol ethers. The ratio of ethylene carbonate to phenol was found to be critical for selective formation of mono-ethylene glycol phenyl ether of phenols. A ratio of two results in formation of appreciable amount of diether derivative viz., 2-(2-phenoxyethoxy) ethanol. Compared to ethylene carbonate, a lower reactivity of 1,2-propane carbonate was found for hydroxyalkoxylation of phenol. It was found that ring opening at less hindered methylene carbon of 1,2-propylene carbonate prevailed giving rise to selective formation of β-hydroxy phenyl ethers. The reactivity of ethylene carbonate towards O-alkylation versus transesterification of phenol has been explained on the basis of HSAB concept. Finally, it has been shown that yield of mono-ethylene glycol phenyl ether is controlled both by basicity and channel architecture of zeolite structure. KL zeolite was found to be the most effective zeolite because of it's intermediate basicity and one dimensional channel architect.

Item Type:Article
Source:Copyright of this article belongs to Elsevier Science.
Keywords:Hydroxyalkoxylation; Phenol; Cyclic Carbonate; Ethylene Glycol Phenyl Ether
ID Code:8036
Deposited On:25 Oct 2010 10:01
Last Modified:28 May 2011 09:55

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