Enantioselective cyanosilylation of ketones by a catalytic double-activation method with an aluminium complex and an N-oxide

Fu Xue Chen; Hui Zhou; Xiaohua Liu; Bo Qin; Xiaoming Feng; Guolin Zhang; Yaozhong Jiang

doi:10.1002/chem.200400506

Enantioselective cyanosilylation of ketones by a catalytic double-activation method with an aluminium complex and an N-oxide

Fu Xue Chen, Hui Zhou, Xiaohua Liu, Bo Qin, Xiaoming Feng^*, Guolin Zhang, Yaozhong Jiang

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

111 Citations (Scopus)

Abstract

Double-activation catalysis promises high catalytic efficiency in the enantioselective cyanosilylation of ketones through the combined use of a Lewis acid and a Lewis base. Catalyst systems composed of a chiral salen-Al complex and an N-oxide have high catalytic turnovers (200 for aromatic ketones, 1000 for aliphatic ones). With these catalysts, a wide range of aliphatic and aromatic ketones were converted under mild conditions into tertiary cyanohydrin O-TMS ethers in excellent yields and with high enantioselectivities (94% ee for aromatic ketones, 90% ee for aliphatic ones). Preliminary mechanistic studies revealed that the salen-Al complex played the role of a Lewis acid to activate the ketone and the N-oxide that of a Lewis base to activate TMSCN; that is, double activation.

Original language	English
Pages (from-to)	4790-4797
Number of pages	8
Journal	Chemistry - A European Journal
Volume	10
Issue number	19
DOIs	https://doi.org/10.1002/chem.200400506
Publication status	Published - 4 Oct 2004
Externally published	Yes

Keywords

Asymmetric catalysis
Cyanohydrins
Double activation
Enantioselectivity
Ketones

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10.1002/chem.200400506

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title = "Enantioselective cyanosilylation of ketones by a catalytic double-activation method with an aluminium complex and an N-oxide",

abstract = "Double-activation catalysis promises high catalytic efficiency in the enantioselective cyanosilylation of ketones through the combined use of a Lewis acid and a Lewis base. Catalyst systems composed of a chiral salen-Al complex and an N-oxide have high catalytic turnovers (200 for aromatic ketones, 1000 for aliphatic ones). With these catalysts, a wide range of aliphatic and aromatic ketones were converted under mild conditions into tertiary cyanohydrin O-TMS ethers in excellent yields and with high enantioselectivities (94% ee for aromatic ketones, 90% ee for aliphatic ones). Preliminary mechanistic studies revealed that the salen-Al complex played the role of a Lewis acid to activate the ketone and the N-oxide that of a Lewis base to activate TMSCN; that is, double activation.",

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AU - Chen, Fu Xue

AU - Zhou, Hui

AU - Liu, Xiaohua

AU - Qin, Bo

AU - Feng, Xiaoming

AU - Zhang, Guolin

AU - Jiang, Yaozhong

PY - 2004/10/4

Y1 - 2004/10/4

N2 - Double-activation catalysis promises high catalytic efficiency in the enantioselective cyanosilylation of ketones through the combined use of a Lewis acid and a Lewis base. Catalyst systems composed of a chiral salen-Al complex and an N-oxide have high catalytic turnovers (200 for aromatic ketones, 1000 for aliphatic ones). With these catalysts, a wide range of aliphatic and aromatic ketones were converted under mild conditions into tertiary cyanohydrin O-TMS ethers in excellent yields and with high enantioselectivities (94% ee for aromatic ketones, 90% ee for aliphatic ones). Preliminary mechanistic studies revealed that the salen-Al complex played the role of a Lewis acid to activate the ketone and the N-oxide that of a Lewis base to activate TMSCN; that is, double activation.

AB - Double-activation catalysis promises high catalytic efficiency in the enantioselective cyanosilylation of ketones through the combined use of a Lewis acid and a Lewis base. Catalyst systems composed of a chiral salen-Al complex and an N-oxide have high catalytic turnovers (200 for aromatic ketones, 1000 for aliphatic ones). With these catalysts, a wide range of aliphatic and aromatic ketones were converted under mild conditions into tertiary cyanohydrin O-TMS ethers in excellent yields and with high enantioselectivities (94% ee for aromatic ketones, 90% ee for aliphatic ones). Preliminary mechanistic studies revealed that the salen-Al complex played the role of a Lewis acid to activate the ketone and the N-oxide that of a Lewis base to activate TMSCN; that is, double activation.

KW - Asymmetric catalysis

KW - Cyanohydrins

KW - Double activation

KW - Enantioselectivity

KW - Ketones

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Enantioselective cyanosilylation of ketones by a catalytic double-activation method with an aluminium complex and an N-oxide

Abstract

Keywords

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