Iron-Catalyzed Hydromagnesiation: Synthesis and Characterization of Benzylic Grignard Reagent Intermediate and Application in the Synthesis of Ibuprofen

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• 作者：Mark D. Greenhalgh ; Adam Kolodziej ; Fern Sinclair ; Stephen P. Thomas
• 刊名：Organometallics
• 出版年：2014
• 出版时间：October 27, 2014
• 年：2014
• 卷：33
• 期：20
• 页码：5811-5819
• 全文大小：567K
• ISSN：1520-6041

文摘

Iron-catalyzed hydromagnesiation of styrene derivatives using ethylmagnesium bromide has been investigated for the synthesis of benzylic Grignard reagents. The benzylic Grignard reagent formed in the reaction was observed directly and its conformation in solution characterized by multinuclear and variable-temperature NMR spectroscopy. The Grignard reagent could be stored for at least 2 weeks without significant loss in activity. Hydromagnesiation of styrene in tetrahydrofuran gave a mixture of monoalkyl- and dialkylmagnesium species, (1-phenylethyl)magnesium bromide (2; RMgBr) and bis(1-phenylethyl)magnesium (3; R₂Mg), with the equilibrium between these species lying in favor of the dialkylmagnesium species. The thermodynamic parameters of alkyl exchange for the reaction MgBr₂ + R₂Mg (3) 鈬?/b> 2RMgBr (2) were quantified, with the enthalpy and entropy of formation of 2 from MgBr₂ and 3 calculated as 32 卤 7 and 0.10 卤 0.03 kJ mol^鈥?, respectively. This methodology was applied, on a 10 mmol scale, as the key step in the synthesis of ibuprofen, using sequential iron-catalyzed alkyl鈥揳ryl and aryl鈥搗inyl cross-coupling reactions to give 4-isobutylstyrene, which following hydromagnesiation and reaction with CO₂ gave ibuprofen. Each step proceeded in excellent yield, at temperatures between 0 掳C and room temperature, at atmospheric pressure. Inexpensive, nontoxic, and air- and moisture-stable iron(III) acetylacetonate was used as the precatalyst in each step in combination with inexpensive amine ligands.