Your search keyword '"Don-Dar Lee"' showing total 2 results

1. Fullerene Derivatives Bearing a Phosphite Ylide, Phosphonate, Phosphine Oxide, and Phosphonic Acid: Synthesis and Reactivities

Author

Chien-Hong Cheng, K. C. Santhosh, Don Dar Lee, and Shih-Ching Chuang

Subjects

chemistry.chemical_classification, Phosphine oxide, chemistry.chemical_compound, Phosphinite, Chemistry, Ylide, Organic Chemistry, Moiety, Hydrobromic acid, Trimethylsilyl iodide, Medicinal chemistry, Phosphonate, Cyclopropane

Abstract

Treatment of phosphites (P(OR)(3)) and MeO(2)CCCCO(2)Me with C(60) affords the corresponding fullerene derivatives (1, R = Me; 2, R = Et; 3, R = n-Bu) consisting of a phosphite ylide group and a cyclopropane ring on the fullerene moiety in high yields. NMR data indicate that all phosphite ylides 1-3 exist as mixtures of E and Z isomers. Under similar reaction conditions, the reaction of phosphinite PPh(2)(OMe) and MeO(2)CCCCO(2)Me with C(60) gives ylide 4. Ylides 1-3 readily undergo hydrolysis with HBr to give corresponding phosphonates 5-7 in excellent yields, while ylide 4 reacts with hydrobromic acid to afford phosphine oxide 8. A mechanism is proposed to account for the formation of these phosphonate derivatives. Further treatment of phosphonate derivative 5 with trimethylsilyl iodide followed by water gave phosphonic acid derivative 9 in 83% yield.

Published

1999

2. ChemInform Abstract: Fullerene Derivatives Bearing a Phosphite Ylide, Phosphonate, Phosphine Oxide, and Phosphonic Acid: Synthesis and Reactivities

Author

Don Dar Lee, K. C. Santhosh, Shih-Ching Chuang, and Chien-Hong Cheng

Subjects

Phosphine oxide, chemistry.chemical_classification, Phosphinite, General Medicine, Trimethylsilyl iodide, Medicinal chemistry, Phosphonate, Cyclopropane, chemistry.chemical_compound, chemistry, Ylide, Moiety, Organic chemistry, Hydrobromic acid

Abstract

Treatment of phosphites (P(OR)3) and MeO2CCCCO2Me with C60 affords the corresponding fullerene derivatives (1, R = Me; 2, R = Et; 3, R = n-Bu) consisting of a phosphite ylide group and a cyclopropane ring on the fullerene moiety in high yields. NMR data indicate that all phosphite ylides 1−3 exist as mixtures of E and Z isomers. Under similar reaction conditions, the reaction of phosphinite PPh2(OMe) and MeO2CCCCO2Me with C60 gives ylide 4. Ylides 1−3 readily undergo hydrolysis with HBr to give corresponding phosphonates 5−7 in excellent yields, while ylide 4 reacts with hydrobromic acid to afford phosphine oxide 8. A mechanism is proposed to account for the formation of these phosphonate derivatives. Further treatment of phosphonate derivative 5 with trimethylsilyl iodide followed by water gave phosphonic acid derivative 9 in 83% yield.

Published

2010