Catalytic Asymmetric Baeyer–Villiger Oxidation in Water by Using Pt^II Catalysts and Hydrogen Peroxide: Supramolecular Control of Enantioselectivity

Abstract: The enantioselective Baeyer-Villiger oxidation of cyclic ketones is a challenging reaction, especially when using environmentally friendly oxidants. The reaction was carried out in water by using soft Lewis acid Pt(II) complexes that have chiral diphosphines as well as monophosphines. Addition of a surfactant is crucial, which leads to the formation of micelles that act as nanoreactors in which the substrate and catalyst encounter each other in an ordered medium that in several cases positively influences both… Show more

“…26 Metal-free methods also exist and make use of enzymes, 27 ionic liquids, 28 carboxylic acids, 29 phosphoric acids, 30,31 and bisflavins 32 to activate the peroxide. Of these methods, a few have been shown to be effective for enantioselective BV oxidations, which include metals such as Pt, Pd or Zr with chiral ligands, 21,24,26 pro-chiral carboxylic acids, 29 phosphoric acids, 30,31 and bisflavins. 32 While there are a variety of methods of activating hydrogen peroxide, it is still desirable to develop methods to broaden the transformation, specifically by defining new pathways to potential asymmetric oxidations.…”

“…3 Many activation methods involve the use of abundant Sn catalysts, the most efficient being Sn-zeolites. [10][11][12][13][14][15][16][17] Other metals used for the activation of hydrogen peroxide in the BV oxidation include Se, 18 Re, 19 Li and Ca borates, 20 Pt, [21][22][23] Pd, 24 Si polyoxometalates, 25 and Zr. 26 Metal-free methods also exist and make use of enzymes, 27 ionic liquids, 28 carboxylic acids, 29 phosphoric acids, 30,31 and bisflavins 32 to activate the peroxide.…”

Baeyer–Villiger oxidation under Payne epoxidation conditions

“…26 Metal-free methods also exist and make use of enzymes, 27 ionic liquids, 28 carboxylic acids, 29 phosphoric acids, 30,31 and bisflavins 32 to activate the peroxide. Of these methods, a few have been shown to be effective for enantioselective BV oxidations, which include metals such as Pt, Pd or Zr with chiral ligands, 21,24,26 pro-chiral carboxylic acids, 29 phosphoric acids, 30,31 and bisflavins. 32 While there are a variety of methods of activating hydrogen peroxide, it is still desirable to develop methods to broaden the transformation, specifically by defining new pathways to potential asymmetric oxidations.…”

“…3 Many activation methods involve the use of abundant Sn catalysts, the most efficient being Sn-zeolites. [10][11][12][13][14][15][16][17] Other metals used for the activation of hydrogen peroxide in the BV oxidation include Se, 18 Re, 19 Li and Ca borates, 20 Pt, [21][22][23] Pd, 24 Si polyoxometalates, 25 and Zr. 26 Metal-free methods also exist and make use of enzymes, 27 ionic liquids, 28 carboxylic acids, 29 phosphoric acids, 30,31 and bisflavins 32 to activate the peroxide.…”

Baeyer–Villiger oxidation under Payne epoxidation conditions

“…An example is the enantioselective Baeyer-Villiger oxidation of cyclic ketones using environmentally friendly oxidants [93]. The reaction was carried out in water by using soft Lewis acid Pt(II) complexes that have chiral diphosphines as well as monophosphines.…”

Creating and mastering nano-objects to design advanced catalytic materials

“…Recently, an efficient system for the oxidation of 4-substituted cyclohexanones (3) to lactones (4) was reported by Strukul and coworkers [55], in which they use a chiral enantiopure Pt(II) catalyst in water with added surfactant and hydrogen peroxide as the terminal oxidant (up to 92% ee), (Eq. (10.6)).…”

Oxidation of Carbonyl Compounds