Review on modern advances of chemical methods for the introduction of a phosphonic acid group

Charles S Demmer; Niels Krogsgaard-Larsen; Lennart Bunch

doi:10.1021/cr2002646

Review on modern advances of chemical methods for the introduction of a phosphonic acid group

Charles S Demmer, Niels Krogsgaard-Larsen, Lennart Bunch

372 Citationer (Scopus)

Abstract

An overview of the physical-organic chemistry properties of the phosphonic acid group in connection to medicinal chemistry aspects is presented. A review on advances and modern synthetic methods for its introduction with respect to substrate-carbon hybridization is also presented. An alternative approach for the introduction of a dialkyl phosphonate group on to a benzyl halide is by a palladium(0)-catalyzed crosscoupling reaction, originally developed by Laven et al. In the presence of the Pd(O) catalyst [Pd ₂(dba) ₃(CHCl ₃)] and Xantphos, a reactive Pd(O) Xantphos complex is formed, which undergoes oxidative addition to the benzyl halide substrate. Gelman et al. reported a method for the synthesis of aryl- and vinyl-phosphonic acids using copper(I) iodide and Cs ₂CO ₃ as base in toluene. Ishii et al. have developed a method for the addition H-phosphonate to nucleophilic alkenes, which relies on the use of MnOAc) ₂ as catalyst.

Originalsprog	Engelsk
Tidsskrift	Chemical Reviews
Vol/bind	111
Udgave nummer	12
Sider (fra-til)	7981-8006
ISSN	0009-2665
DOI	https://doi.org/10.1021/cr2002646
Status	Udgivet - 14 dec. 2011

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abstract = "An overview of the physical-organic chemistry properties of the phosphonic acid group in connection to medicinal chemistry aspects is presented. A review on advances and modern synthetic methods for its introduction with respect to substrate-carbon hybridization is also presented. An alternative approach for the introduction of a dialkyl phosphonate group on to a benzyl halide is by a palladium(0)-catalyzed crosscoupling reaction, originally developed by Laven et al. In the presence of the Pd(O) catalyst [Pd 2(dba) 3(CHCl 3)] and Xantphos, a reactive Pd(O) Xantphos complex is formed, which undergoes oxidative addition to the benzyl halide substrate. Gelman et al. reported a method for the synthesis of aryl- and vinyl-phosphonic acids using copper(I) iodide and Cs 2CO 3 as base in toluene. Ishii et al. have developed a method for the addition H-phosphonate to nucleophilic alkenes, which relies on the use of MnOAc) 2 as catalyst.",

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AU - Krogsgaard-Larsen, Niels

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N2 - An overview of the physical-organic chemistry properties of the phosphonic acid group in connection to medicinal chemistry aspects is presented. A review on advances and modern synthetic methods for its introduction with respect to substrate-carbon hybridization is also presented. An alternative approach for the introduction of a dialkyl phosphonate group on to a benzyl halide is by a palladium(0)-catalyzed crosscoupling reaction, originally developed by Laven et al. In the presence of the Pd(O) catalyst [Pd 2(dba) 3(CHCl 3)] and Xantphos, a reactive Pd(O) Xantphos complex is formed, which undergoes oxidative addition to the benzyl halide substrate. Gelman et al. reported a method for the synthesis of aryl- and vinyl-phosphonic acids using copper(I) iodide and Cs 2CO 3 as base in toluene. Ishii et al. have developed a method for the addition H-phosphonate to nucleophilic alkenes, which relies on the use of MnOAc) 2 as catalyst.

AB - An overview of the physical-organic chemistry properties of the phosphonic acid group in connection to medicinal chemistry aspects is presented. A review on advances and modern synthetic methods for its introduction with respect to substrate-carbon hybridization is also presented. An alternative approach for the introduction of a dialkyl phosphonate group on to a benzyl halide is by a palladium(0)-catalyzed crosscoupling reaction, originally developed by Laven et al. In the presence of the Pd(O) catalyst [Pd 2(dba) 3(CHCl 3)] and Xantphos, a reactive Pd(O) Xantphos complex is formed, which undergoes oxidative addition to the benzyl halide substrate. Gelman et al. reported a method for the synthesis of aryl- and vinyl-phosphonic acids using copper(I) iodide and Cs 2CO 3 as base in toluene. Ishii et al. have developed a method for the addition H-phosphonate to nucleophilic alkenes, which relies on the use of MnOAc) 2 as catalyst.

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Review on modern advances of chemical methods for the introduction of a phosphonic acid group

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