Triflic Acid-Catalyzed Enynes Cyclization: A New Strategy beyond Electrophilic π-Activation

Zhunzhun Yu; Lu Liu; Junliang Zhang

doi:10.1002/chem.201601599

Triflic Acid-Catalyzed Enynes Cyclization: A New Strategy beyond Electrophilic π-Activation

Zhunzhun Yu, Lu Liu, Junliang Zhang

School of Chemistry and Molecular Engineering

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

12 Scopus citations

Abstract

The cyclization of enynes, catalyzed by a transition metal, represents a powerful tool to construct an array of cyclic compounds through electrophilic π-activation. In this paper, we disclose a new and efficient strategy for enynes cyclization catalyzed by triflic acid. The salient features of this transformation includes a broad substrate scope, metal free synthesis, open flask and mild conditions, good yields, ease of operation, low catalyst loading, and easy scale-up to gram scale. A preliminary mechanism study demonstrated that the activation model of the reaction was σ-activation, which is different from the transition-metal-catalyzed enynes cyclization. Our strategy affords a complementary method to the traditional strategies, which use transition-metal catalysts.

Original language	English
Pages (from-to)	8488-8492
Number of pages	5
Journal	Chemistry - A European Journal
Volume	22
Issue number	25
DOIs	https://doi.org/10.1002/chem.201601599
State	Published - 13 Jun 2016

Keywords

enynes
organic chemistry
synthetic methods
triflic acid
σ-activation

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10.1002/chem.201601599

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title = "Triflic Acid-Catalyzed Enynes Cyclization: A New Strategy beyond Electrophilic π-Activation",

abstract = "The cyclization of enynes, catalyzed by a transition metal, represents a powerful tool to construct an array of cyclic compounds through electrophilic π-activation. In this paper, we disclose a new and efficient strategy for enynes cyclization catalyzed by triflic acid. The salient features of this transformation includes a broad substrate scope, metal free synthesis, open flask and mild conditions, good yields, ease of operation, low catalyst loading, and easy scale-up to gram scale. A preliminary mechanism study demonstrated that the activation model of the reaction was σ-activation, which is different from the transition-metal-catalyzed enynes cyclization. Our strategy affords a complementary method to the traditional strategies, which use transition-metal catalysts.",

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T1 - Triflic Acid-Catalyzed Enynes Cyclization

T2 - A New Strategy beyond Electrophilic π-Activation

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AU - Liu, Lu

AU - Zhang, Junliang

PY - 2016/6/13

Y1 - 2016/6/13

N2 - The cyclization of enynes, catalyzed by a transition metal, represents a powerful tool to construct an array of cyclic compounds through electrophilic π-activation. In this paper, we disclose a new and efficient strategy for enynes cyclization catalyzed by triflic acid. The salient features of this transformation includes a broad substrate scope, metal free synthesis, open flask and mild conditions, good yields, ease of operation, low catalyst loading, and easy scale-up to gram scale. A preliminary mechanism study demonstrated that the activation model of the reaction was σ-activation, which is different from the transition-metal-catalyzed enynes cyclization. Our strategy affords a complementary method to the traditional strategies, which use transition-metal catalysts.

AB - The cyclization of enynes, catalyzed by a transition metal, represents a powerful tool to construct an array of cyclic compounds through electrophilic π-activation. In this paper, we disclose a new and efficient strategy for enynes cyclization catalyzed by triflic acid. The salient features of this transformation includes a broad substrate scope, metal free synthesis, open flask and mild conditions, good yields, ease of operation, low catalyst loading, and easy scale-up to gram scale. A preliminary mechanism study demonstrated that the activation model of the reaction was σ-activation, which is different from the transition-metal-catalyzed enynes cyclization. Our strategy affords a complementary method to the traditional strategies, which use transition-metal catalysts.

KW - enynes

KW - organic chemistry

KW - synthetic methods

KW - triflic acid

KW - σ-activation

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DO - 10.1002/chem.201601599

M3 - 文章

AN - SCOPUS:84976604932

SN - 0947-6539

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SP - 8488

EP - 8492

JO - Chemistry - A European Journal

JF - Chemistry - A European Journal

IS - 25

ER -

Triflic Acid-Catalyzed Enynes Cyclization: A New Strategy beyond Electrophilic π-Activation

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