Control of the ambident reactivity of the nitrite ion

Hai Dong; Martin Rahm; Niranjan Thota; Lingquan Deng; Tore Brinck; Olof Ramström

doi:10.1039/c2ob26980e

Control of the ambident reactivity of the nitrite ion

Hai Dong, Martin Rahm, Niranjan Thota, Lingquan Deng, Tore Brinck, Olof Ramström

LUKKET: Institut for Lægemiddeldesign og Farmakologi

26 Citationer (Scopus)

Abstract

In previous studies, it was reported that a neighbouring equatorial ester group is essential for a good yield of nitrite-mediated triflate inversion, whereas with neighbouring benzyl ether groups or axial ester groups, mixtures are generally produced. In the present study, the origin of this difference was addressed. The ambident reactivity of the nitrite ion has been found to be the cause of the complex product formation observed, which can be controlled by a neighbouring equatorial ester group. Both N-attack and O-attack occur in the absence of the ester group, whereas O-attack is favoured in its presence. A neighbouring group assistance mechanism is proposed, in addition to steric effects, based on secondary interactions between the neighbouring ester group and the incoming nucleophile. High-level quantum mechanical calculations were carried out in order to delineate this effect. The theoretical results are in excellent agreement with experiments, and suggest a catalytic role for the neighbouring equatorial ester group.

Originalsprog	Engelsk
Tidsskrift	Organic & Biomolecular Chemistry
Vol/bind	11
Udgave nummer	4
Sider (fra-til)	648-53
Antal sider	6
ISSN	1477-0520
DOI	https://doi.org/10.1039/c2ob26980e
Status	Udgivet - 28 jan. 2013

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10.1039/c2ob26980e

Citationsformater

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T1 - Control of the ambident reactivity of the nitrite ion

AU - Dong, Hai

AU - Rahm, Martin

AU - Thota, Niranjan

AU - Deng, Lingquan

AU - Brinck, Tore

AU - Ramström, Olof

PY - 2013/1/28

Y1 - 2013/1/28

N2 - In previous studies, it was reported that a neighbouring equatorial ester group is essential for a good yield of nitrite-mediated triflate inversion, whereas with neighbouring benzyl ether groups or axial ester groups, mixtures are generally produced. In the present study, the origin of this difference was addressed. The ambident reactivity of the nitrite ion has been found to be the cause of the complex product formation observed, which can be controlled by a neighbouring equatorial ester group. Both N-attack and O-attack occur in the absence of the ester group, whereas O-attack is favoured in its presence. A neighbouring group assistance mechanism is proposed, in addition to steric effects, based on secondary interactions between the neighbouring ester group and the incoming nucleophile. High-level quantum mechanical calculations were carried out in order to delineate this effect. The theoretical results are in excellent agreement with experiments, and suggest a catalytic role for the neighbouring equatorial ester group.

AB - In previous studies, it was reported that a neighbouring equatorial ester group is essential for a good yield of nitrite-mediated triflate inversion, whereas with neighbouring benzyl ether groups or axial ester groups, mixtures are generally produced. In the present study, the origin of this difference was addressed. The ambident reactivity of the nitrite ion has been found to be the cause of the complex product formation observed, which can be controlled by a neighbouring equatorial ester group. Both N-attack and O-attack occur in the absence of the ester group, whereas O-attack is favoured in its presence. A neighbouring group assistance mechanism is proposed, in addition to steric effects, based on secondary interactions between the neighbouring ester group and the incoming nucleophile. High-level quantum mechanical calculations were carried out in order to delineate this effect. The theoretical results are in excellent agreement with experiments, and suggest a catalytic role for the neighbouring equatorial ester group.

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JO - Journal of the Chemical Society, Perkin Transactions 1

JF - Journal of the Chemical Society, Perkin Transactions 1

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ER -

Control of the ambident reactivity of the nitrite ion

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