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Literature DB >> 31107593

Aerobic Acyloxylation of Allylic C-H Bonds Initiated by a Pd⁰ Precatalyst with 4,5-Diazafluoren-9-one as an Ancillary Ligand.

Caitlin V Kozack¹, Jennifer A Sowin¹, Jonathan N Jaworski¹, Andrei V Iosub¹, Shannon S Stahl¹.

Abstract

Palladium-catalyzed allylic C-H oxidation has been widely studied, but most precedents use acetic acid as the coupling partner. In this study, a method compatible with diverse carboxylic acid partners has been developed. Use of a Pd0 precatalyst under aerobic reaction conditions leads to oxidation of Pd0 by O2 in the presence of the desired carboxylic acid to generate a PdII dicarboxylate that promotes acyloxylation of the allylic C-H bond. Good-to-excellent yields are obtained with a roughly 1:1 ratio of the alkene and carboxylic acid reagents. Optimized reaction conditions employ 4,5-diazafluoren-9-one (DAF) as a ligand, in combination with a quinone/iron phthalocyanine cocatalyst system to support aerobic catalytic turnover.

Entities: Chemical Disease Species

Keywords: C−H activation; acyloxylation; aerobic oxidation; homogeneous catalysis; palladium

Year: 2019 PMID： 31107593 DOI： 10.1002/cssc.201900727

Source DB: PubMed Journal: ChemSusChem ISSN： 1864-5631 Impact factor: 8.928

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Cited

5 in total

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Journal: Eur J Inorg Chem Date: 2020-02-26 Impact factor: 2.524

2. Can Donor Ligands Make Pd(OAc)₂ a Stronger Oxidant? Access to Elusive Palladium(II) Reduction Potentials and Effects of Ancillary Ligands via Palladium(II)/Hydroquinone Redox Equilibria.

Authors: David L Bruns; Djamaladdin G Musaev; Shannon S Stahl
Journal: J Am Chem Soc Date: 2020-11-09 Impact factor: 15.419

3. Benzoquinone Cocatalyst Contributions to DAF/Pd(OAc)₂-Catalyzed Aerobic Allylic Acetoxylation in the Absence and Presence of a Co(salophen) Cocatalyst.

Authors: Caitlin V Kozack; Stephen J Tereniak; Jonathan N Jaworski; Bao Li; David L Bruns; Spring M M Knapp; Clark R Landis; Shannon S Stahl
Journal: ACS Catal Date: 2021-05-13 Impact factor: 13.700

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Review 5. Efficient Aerobic Oxidation of Organic Molecules by Multistep Electron Transfer.

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Journal: Angew Chem Int Ed Engl Date: 2021-03-24 Impact factor: 16.823