NHC-catalyzed covalent activation and control of P(V)-stereogenic phosphorus centers via phosphonyl azolium intermediates

Yanyan Wang; Kuohong Chen; Fengrui Che; Sha Zhao; Pinpin Feng; Qiang Zhao; Donghui Wei; Xingxing Wu; Yonggui Robin Chi

doi:10.1016/j.chempr.2025.102586

NHC-catalyzed covalent activation and control of P(V)-stereogenic phosphorus centers via phosphonyl azolium intermediates

Yanyan Wang, Kuohong Chen, Fengrui Che, Sha Zhao, Pinpin Feng, Qiang Zhao, Donghui Wei^*, Xingxing Wu^*, Yonggui Robin Chi^*

^*Corresponding author for this work

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

Abstract

Despite various impressive advancements in the construction of chiral phosphorus centers, enantioselective control of P(V)-stereogenicity with covalent nucleophilic catalysts for direct preparation of chiral phosphorus compounds remains relatively underdeveloped. Here, we disclose a new mode of covalent organocatalysis for enantioselective construction of chiral phosphorus scaffolds via new P–O bond formations. Key steps in our approach involve the addition of an N-heterocyclic carbene (NHC) catalyst to a phosphonate, leading to the formation of a pivotal phosphonyl azolium reactive intermediate that effectively forges the asymmetric P–O bond formation in high selectivity. The resulting phosphonate products bearing a leaving group allow further stereospecific P–O/N coupling, facilitating the phosphonylated functionalization of diverse natural products and bioactive molecules. Unlike classical NHC organocatalysis that focuses on “C”-stereocenters, this study realizes efficient catalyst control over P(V)-stereogenicity through phosphorus-based azolium intermediates for the first time, offering a new platform for covalent bond activation in the synthesis of stereogenic phosphorus compounds.

Original language	English
Article number	102586
Journal	Chem
DOIs	https://doi.org/10.1016/j.chempr.2025.102586
Publication status	Accepted/In press - 2025
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2025 Elsevier Inc.

ASJC Scopus Subject Areas

General Chemistry
Biochemistry
Environmental Chemistry
General Chemical Engineering
Biochemistry, medical
Materials Chemistry

Keywords

asymmetric desymmetrization
carbene organocatalysis
covalent activation
phosphonyl azoliums
phosphorus stereogenicity
SDG9: Industry, innovation, and infrastructure

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10.1016/j.chempr.2025.102586

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title = "NHC-catalyzed covalent activation and control of P(V)-stereogenic phosphorus centers via phosphonyl azolium intermediates",

abstract = "Despite various impressive advancements in the construction of chiral phosphorus centers, enantioselective control of P(V)-stereogenicity with covalent nucleophilic catalysts for direct preparation of chiral phosphorus compounds remains relatively underdeveloped. Here, we disclose a new mode of covalent organocatalysis for enantioselective construction of chiral phosphorus scaffolds via new P–O bond formations. Key steps in our approach involve the addition of an N-heterocyclic carbene (NHC) catalyst to a phosphonate, leading to the formation of a pivotal phosphonyl azolium reactive intermediate that effectively forges the asymmetric P–O bond formation in high selectivity. The resulting phosphonate products bearing a leaving group allow further stereospecific P–O/N coupling, facilitating the phosphonylated functionalization of diverse natural products and bioactive molecules. Unlike classical NHC organocatalysis that focuses on “C”-stereocenters, this study realizes efficient catalyst control over P(V)-stereogenicity through phosphorus-based azolium intermediates for the first time, offering a new platform for covalent bond activation in the synthesis of stereogenic phosphorus compounds.",

keywords = "asymmetric desymmetrization, carbene organocatalysis, covalent activation, phosphonyl azoliums, phosphorus stereogenicity, SDG9: Industry, innovation, and infrastructure",

author = "Yanyan Wang and Kuohong Chen and Fengrui Che and Sha Zhao and Pinpin Feng and Qiang Zhao and Donghui Wei and Xingxing Wu and Chi, {Yonggui Robin}",

note = "Publisher Copyright: {\textcopyright} 2025 Elsevier Inc.",

year = "2025",

doi = "10.1016/j.chempr.2025.102586",

language = "English",

journal = "Chem",

issn = "2451-9308",

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T1 - NHC-catalyzed covalent activation and control of P(V)-stereogenic phosphorus centers via phosphonyl azolium intermediates

AU - Wang, Yanyan

AU - Chen, Kuohong

AU - Che, Fengrui

AU - Zhao, Sha

AU - Feng, Pinpin

AU - Zhao, Qiang

AU - Wei, Donghui

AU - Wu, Xingxing

AU - Chi, Yonggui Robin

PY - 2025

Y1 - 2025

N2 - Despite various impressive advancements in the construction of chiral phosphorus centers, enantioselective control of P(V)-stereogenicity with covalent nucleophilic catalysts for direct preparation of chiral phosphorus compounds remains relatively underdeveloped. Here, we disclose a new mode of covalent organocatalysis for enantioselective construction of chiral phosphorus scaffolds via new P–O bond formations. Key steps in our approach involve the addition of an N-heterocyclic carbene (NHC) catalyst to a phosphonate, leading to the formation of a pivotal phosphonyl azolium reactive intermediate that effectively forges the asymmetric P–O bond formation in high selectivity. The resulting phosphonate products bearing a leaving group allow further stereospecific P–O/N coupling, facilitating the phosphonylated functionalization of diverse natural products and bioactive molecules. Unlike classical NHC organocatalysis that focuses on “C”-stereocenters, this study realizes efficient catalyst control over P(V)-stereogenicity through phosphorus-based azolium intermediates for the first time, offering a new platform for covalent bond activation in the synthesis of stereogenic phosphorus compounds.

AB - Despite various impressive advancements in the construction of chiral phosphorus centers, enantioselective control of P(V)-stereogenicity with covalent nucleophilic catalysts for direct preparation of chiral phosphorus compounds remains relatively underdeveloped. Here, we disclose a new mode of covalent organocatalysis for enantioselective construction of chiral phosphorus scaffolds via new P–O bond formations. Key steps in our approach involve the addition of an N-heterocyclic carbene (NHC) catalyst to a phosphonate, leading to the formation of a pivotal phosphonyl azolium reactive intermediate that effectively forges the asymmetric P–O bond formation in high selectivity. The resulting phosphonate products bearing a leaving group allow further stereospecific P–O/N coupling, facilitating the phosphonylated functionalization of diverse natural products and bioactive molecules. Unlike classical NHC organocatalysis that focuses on “C”-stereocenters, this study realizes efficient catalyst control over P(V)-stereogenicity through phosphorus-based azolium intermediates for the first time, offering a new platform for covalent bond activation in the synthesis of stereogenic phosphorus compounds.

KW - asymmetric desymmetrization

KW - carbene organocatalysis

KW - covalent activation

KW - phosphonyl azoliums

KW - phosphorus stereogenicity

KW - SDG9: Industry, innovation, and infrastructure

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DO - 10.1016/j.chempr.2025.102586

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SN - 2451-9308

JO - Chem

JF - Chem

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ER -

NHC-catalyzed covalent activation and control of P(V)-stereogenic phosphorus centers via phosphonyl azolium intermediates

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

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