Improvements, Variations and Biomedical Applications of the Michaelis–Arbuzov Reaction

Kostoudi, Stavroula; Pampalakis, Georgios

doi:10.3390/ijms23063395

Cited by 9 publications

(4 citation statements)

References 103 publications

(119 reference statements)

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“…Phosphonates can be synthesized by a two-step Michaelis-Arbuzov reaction of halides and phosphites in two S N 2 reactions. [64] This type of intermediates for hydroxylated stilbene synthesis was prepared in the paper of Li et al [43] in the presence of tetra-n-butylammonium iodide (n-Bu) 4 NI at 100-120 °C, which gave hydroxylated trans-stilbene derivatives after the subsequent Wittig olefination reaction and demethoxylation.…”

Section: Functionalization Of Stilbene Productsmentioning

confidence: 99%

“…Besides the aforementioned phosphonium salts coupled with aldehydes in a Wittig reaction to obtain hydroxylated stilbenes, phosphonates are also a possible intermediate in hydroxylated stilbene synthesis. Phosphonates can be synthesized by a two‐step Michaelis‐Arbuzov reaction of halides and phosphites in two S N 2 reactions [64] . This type of intermediates for hydroxylated stilbene synthesis was prepared in the paper of Li et al [43] .…”

Section: Hydroxylated Stilbene Mode Of Action Biological Properties A...mentioning

confidence: 99%

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Synthesis of Hydroxylated Stilbenes in a Batch and Flow Reactor: An Overview

Ljubić,

Šalić,

Škorić

2023

ChemistrySelect

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With the increasing awareness of cardiovascular diseases and cancer prevention, the interest in resveratrol and its derivatives, i. e. hydroxylated stilbene compounds, as great antioxidants is growing day by day. The discovery of several other stilbene applications, especially in the treatment of numerous diseases, has further increased interest. Antidiabetic, anti‐inflammatory, antimicrobial, and anti‐neurodegenerative are just a few of the properties attributed to hydroxylated stilbene compounds. It is therefore not surprising that hydroxylated stilbenes are of great importance and frequently researched nowadays. In parallel, research in the field of flow chemistry has been increasing rapidly for years, as it offers many advantages in many different fields, including the synthesis of hydroxylated stilbenes. In this review article, a concise overview of stilbene compounds is given, as well as their properties and biological activity depending on the structure. In addition, various and common synthesis and production methods are described, with emphasis on application of flow chemistry in these processes.

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Section: Functionalization Of Stilbene Productsmentioning

confidence: 99%

Section: Hydroxylated Stilbene Mode Of Action Biological Properties A...mentioning

confidence: 99%

Synthesis of Hydroxylated Stilbenes in a Batch and Flow Reactor: An Overview

Ljubić,

Šalić,

Škorić

2023

ChemistrySelect

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“…The use of P(III) reagents as the starting materials to synthesize allyl-functionalized phosphonates/phosphinates/phosphine oxides represents an important alternative approach to the use of P(V)–H substrates as the phosphorylation reagents. This approach serves as an extension and advancement of the Michaelis–Arbuzov rearrangement reaction . Given our group’s longstanding interest in the synthesis of organophosphorus compounds, we present here a highly efficient method for the synthesis of diarylallyl-functionalized phosphonates/phosphinates/phosphine oxides through the zinc-catalyzed dehydroxylative phosphorylation of allylic alcohols with P(III)-nucleophiles via the Michaelis–Arbuzov-type rearrangement (Scheme B).…”

Section: Introductionmentioning

confidence: 99%

Zn-Catalyzed Dehydroxylative Phosphorylation of Allylic Alcohols with P(III)-Nucleophiles

Xiong,

Shi,

Ren

et al. 2024

J. Org. Chem.

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A novel and efficient protocol for the synthesis of diarylallyl-functionalized phosphonates, phosphinates, and phosphine oxides through the zinc-catalyzed dehydroxylative phosphorylation of allylic alcohols with P(III)-nucleophiles via a Michaelis−Arbuzov-type rearrangement is reported. A broad range of allylic alcohols and P(III)-nucleophiles (P(OR) 3 , ArP(OR) 2 , and Ar 2 P(OR)) are well tolerated in this reaction, and the expected dehydroxylative phosphorylation products could be synthesized with good to excellent yields under the optimal reaction conditions. The reaction can be easily scaled up at a gram-synthesis level. Furthermore, through the step-by-step control experiments, kinetic study experiments, and 31 P NMR tracking experiments, we acquired insights into the reaction and proposed the possible mechanism for this transformation.

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“…The classic Michaelis–Arbuzov reaction has emerged as a premier synthetic tool for the preparation of organophosphonates from phosphites and halides. − The reaction mainly involves two sequential S N 2 processes, in which a phosphonium intermediate was first generated and then rearranged to the phosphonate products. However, limitations of this reaction are also obvious, which mainly include: (a) a high reaction temperature (>150 °C) is usually required; (b) the reaction suffers from poor functional group tolerance; (c) the generated halide byproduct may compete with the substrate halide to give undesired phosphonate byproducts; and (d) the reaction is essentially restricted to aliphatic phosphites for the preparation of aliphatic phosphonates due to the low nucleophilicity of triaryl phosphites (Scheme B).…”

mentioning

confidence: 99%

Water-Promoted Mild and General Michaelis–Arbuzov Reaction of Triaryl Phosphites and Aryl Iodides by Palladium Catalysis

Zhang,

Hu,

Chen

et al. 2024

Org. Lett.

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A Pd-catalyzed relatively general Michaelis−Arbuzov reaction of triaryl phosphites and aryl iodides for preparing useful aryl phosphonates was developed. Interestingly, water can greatly facilitate the reaction through a water-participating phosphonium intermediate rearrangement process, which also makes the reaction conditions rather mild. In comparison with the known methods, this reaction is milder and more general, as it exhibits excellent functional group tolerance, can be applied to various triaryl phosphites and aryl iodides, and can be extended to aryl phosphonites and phosphinites. A gram-scale reaction with a low catalyst loading also revealed its practicality and potential in large-scale preparation.

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Improvements, Variations and Biomedical Applications of the Michaelis–Arbuzov Reaction

Cited by 9 publications

References 103 publications

Synthesis of Hydroxylated Stilbenes in a Batch and Flow Reactor: An Overview

Synthesis of Hydroxylated Stilbenes in a Batch and Flow Reactor: An Overview

Zn-Catalyzed Dehydroxylative Phosphorylation of Allylic Alcohols with P(III)-Nucleophiles

Water-Promoted Mild and General Michaelis–Arbuzov Reaction of Triaryl Phosphites and Aryl Iodides by Palladium Catalysis

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