打破醇类催化单分子亲核取代反应中反应活性与化学选择性的二分法。

Breaking the dichotomy of reactivity vs. chemoselectivity in catalytic S(N)1 reactions of alcohols.

作者信息

Hellal Malik, Falk Florian C, Wolf Eléna, Dryzhakov Marian, Moran Joseph

机构信息

ISIS, Université de Strasbourg, 8 allée Gaspard Monge, BP 70028, 67083 Strasbourg, France.

出版信息

Org Biomol Chem. 2014 Aug 21;12(31):5990-4. doi: 10.1039/c4ob01265h.

DOI:10.1039/c4ob01265h

PMID:24987941

Abstract

The inability to decouple Lewis acid catalysis from undesirable Brønsted acid catalysed side reactions when water or other protic functional groups are necessarily present has forced chemists to choose between powerful but harsh catalysts or poor but mild ones, a dichotomy that restricts the substrate scope of dehydrative transformations such as the direct SN1 reaction of alcohols. A systematic survey of Lewis and Brønsted acids reveals that the strong non-hydrolyzable Lewis acid B(C6F5)3 leads to highly chemoselective alcohol substitution in the presence of acid-sensitive alkenes, protecting groups and other functional groups without the typical compromise in reaction rates, substrate scope and catalyst loading.

摘要

当水或其他质子官能团必然存在时，无法将路易斯酸催化与不良的布朗斯特酸催化的副反应解耦，这迫使化学家在强大但苛刻的催化剂和低效但温和的催化剂之间做出选择，这种二分法限制了脱水转化（如醇的直接SN1反应）的底物范围。对路易斯酸和布朗斯特酸的系统研究表明，强的不可水解路易斯酸B(C6F5)3在酸敏感的烯烃、保护基和其他官能团存在的情况下，能实现高度化学选择性的醇取代反应，且在反应速率、底物范围和催化剂负载量方面没有典型的折衷。

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打破醇类催化单分子亲核取代反应中反应活性与化学选择性的二分法。

Breaking the dichotomy of reactivity vs. chemoselectivity in catalytic S(N)1 reactions of alcohols.

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