Oligoethylene Glycols as Highly Efficient Mutifunctional Promoters for Nucleophilic-Substitution Reactions

Oligoethylene Glycols as Highly Efficient Mutifunctional Promoters for Nucleophilic-Substitution Reactions

Herein, we report the promising use of n‐oligoethylene glycols (oligoEGs) as mutifunctional promoters for nucleophilic‐substitution reactions employing alkali metal salts. Among the various oligoEGs tested, pentaethylene glycol (pentaEG) had the most efficient catalytic activity. In particular, when...

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Published in:Chemistry : a European journal Vol. 18; no. 13; pp. 3918 - 3924
Main Authors: Jadhav, Vinod H., Jang, Seung Ho, Jeong, Hwan-Jeong, Lim, Seok Tae, Sohn, Myung-Hee, Kim, Ju-Young, Lee, Sungyul, Lee, Ji Woong, Song, Choong Eui, Kim, Dong Wook
Format: Journal Article
Language:English
Published: Weinheim WILEY-VCH Verlag 26-03-2012
WILEY‐VCH Verlag
Wiley Subscription Services, Inc
Subjects:
Acetates
Alcohols - chemistry
alkali metals
Catalysis
Cations
Chemistry
Combinatorial Chemistry Techniques
Ethylenes - chemistry
Fluorination
fluorine
Fluorine - chemistry
Glycols
Glycols - chemistry
Metals, Alkali - chemistry
Molecular Conformation
Molecular Structure
multifunctional promoter
Nucleophiles
nucleophilic substitution
oligoethylene glycol
Potassium
Quantum chemistry
Substrates
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Summary:Herein, we report the promising use of n‐oligoethylene glycols (oligoEGs) as mutifunctional promoters for nucleophilic‐substitution reactions employing alkali metal salts. Among the various oligoEGs tested, pentaethylene glycol (pentaEG) had the most efficient catalytic activity. In particular, when compared with other nucleophiles examined, a fluorine nucleophile generated from CsF was significantly activated by the pentaEG promoter. We also performed various facile nucleophilic‐displacement reactions, such as the halogenation, acetoxylation, thioacetoxylation, nitrilation, and azidation of various substrates with potassium halides, acetate, thioacetate, cyanide, and sodium azide, respectively, in the presence of the pentaEG promoter. All of these reactions provided their desired products in excellent yields. Furthermore, the combination of pentaEG and a tert‐alcohol medium showed tremendous efficiency in the nucleophilic‐displacement reactions (fluorination and methoxylation) of base‐sensitive substrates with basic nucleophiles (cesium fluoride and potassium methoxide, respectively). The catalytic role of oligoEGs was examined by quantum‐chemical methods. The oxygen atoms in oligoEGs were found to act as Lewis bases on the metal cations to produce the “flexible” nucleophile, whereas the two terminal hydroxy (OH) groups acted as “anchors” to orientate the nucleophile and the substrate into an ideal configuration for the reaction. The EG race: OligoEGs, such as pentaethylene glycol (pentaEG), act as mutifunctional promoters for nucleophilic‐substitution reactions with the corresponding alkali‐metal salts. The combination of pentaEG and a tert‐alcohol media system showed tremendous efficiency in the fluorination and methoxylation of base‐sensitive substrates by using the corresponding basic nucleophiles (see figure).
Bibliography:MEST - No. NRF-2011-0031392
ark:/67375/WNG-91N1R8X9-S
Korean government - No. 2011-0006322
National Research Foundation of Korea (NRF)
MEST - No. 2011K000705; No. 2011K000721
MEST - No. 2011-0001334
Korea Science and Engineering Foundation (KOSEF)
ArticleID:CHEM201102455
MEST - No. R31-2008-10029
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istex:7585C8141B157DBA8F0F1FE889D75C10A6E656F3
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0947-6539
1521-3765
DOI:10.1002/chem.201102455