Your search keyword '"Sabarre, Anthony"' showing total 7 results

1. Strategies towards carbon-carbon bond formation via tandem hydrothiolation/Kumada cross-coupling

Author

Sabarre, Anthony

Abstract

Using recently developed methodology from our group, a variety of aryl and aliphatic terminal alkynes were reacted with n-propanethiol to undergo catalytic alkyne hydrothiolation in the presence Tp*Rh(PPh₃)₂ The alkynes examined afforded the branched isomer with high regioselectivity and moderate-to-high yield. Unsubstituted aryl alkynes, or those containing an electron-donating substituent at the para position, gave the branched vinyl sulfide in good isolated yield. In contrast, vinyl sulfides derived from aryl alkynes containing an electron-withdrawing substituent at the para position showed a decrease in reactivity and yield. The aliphatic alkynes that were investigated gave the desired branched vinyl sulfide in good yield. The isolated vinyl sulfides were then subjected to Kumada cross-coupling in the presence of NiCl₂(PPh₃)₂ with various aryl and aliphatic Grignard reagents, affording the corresponding 1,1 -disubstituted olefins. While benzyl-, phenyl- and trimethylsilylmagnesium halides were shown to be suitable cross-coupling partners, phenylethynyl-, vinyl- and n-butylmagnesium halides were not. Once the viability for the Kumada cross-coupling of vinyl sulfides was established, a one-pot protocol was investigated. It was shown that the one-pot procedure afforded the desired 1,1 -disubstituted olefin from readily available terminal alkynes in similar, and in some cases superior, yields than the two-step process.

Published

2008

2. ChemInform Abstract: Synthesis of 1,1-Disubstituted Alkyl Vinyl Sulfides via Rhodium-Catalyzed Alkyne Hydrothiolation: Scope and Limitations.

Author

Yang, Jun, primary, Sabarre, Anthony, additional, Fraser, Lauren R., additional, Patrick, Brian O., additional, and Love, Jennifer A., additional

Published

2009

3. ChemInform Abstract: Synthesis of 1,1-Disubstituted Olefins via Catalytic Alkyne Hydrothiolation/Kumada Cross-Coupling.

Author

Sabarre, Anthony, primary and Love, Jennifer, additional

Published

2009

4. Synthesis of 1,1-Disubstituted Alkyl Vinyl Sulfides via Rhodium-Catalyzed Alkyne Hydrothiolation: Scope and Limitations

Author

Yang, Jun, primary, Sabarre, Anthony, additional, Fraser, Lauren R., additional, Patrick, Brian O., additional, and Love, Jennifer A., additional

Published

2008

5. Synthesis of 1,1-Disubstituted Olefins via Catalytic Alkyne Hydrothiolation/Kumada Cross-Coupling

Author

Sabarre, Anthony, primary and Love, Jennifer, additional

Published

2008

6. Synthesis of 1,1-Disubstituted Alkyl Vinyl Sulfides via Rhodium-Catalyzed Alkyne Hydrothiolation: Scope and Limitations.

Author

Jun Yang, Sabarre, Anthony, Fraser, Lauren R., Patrick, Brian O., and Love, Jennifer A.

Subjects

*ALKYNES, *THIOLS, *DIVINYL sulfide, *ESTERS, *SILANE compounds, *ELECTRONS

Abstract

Described herein are the scope and limitations using Tp*Rh(PPh3)2 as a catalyst for alkyne hydrothiolation with alkyl thiols. In general, catalytic hydrothiolation proceeds in high yields and with high regioselectivity for a wide range of alkynes and thiols. A variety of functional groups were well-tolerated, including nitriles, amines, halogens, ethers, esters and silanes, although strongly coordinating groups were found to be incompatible with hydrothiolation. Both sterically encumbered alkynes and thiols were successful in hydrothiolation. Electron rich alkynes react more rapidly than electron deficient alkynes. Overall, this hydrothiolation protocol provides convenient access to a variety of functionalized branched alkyl vinyl sulfides. [ABSTRACT FROM AUTHOR]

Published

2009

7. Synthesis of 1,1-disubstituted alkyl vinyl sulfides via rhodium-catalyzed alkyne hydrothiolation: scope and limitations.

Author

Yang J, Sabarre A, Fraser LR, Patrick BO, and Love JA

Subjects

Catalysis, Crystallography, X-Ray, Models, Molecular, Molecular Structure, Stereoisomerism, Vinyl Compounds chemistry, Alkynes chemistry, Organometallic Compounds chemistry, Rhodium chemistry, Sulfhydryl Compounds chemical synthesis, Sulfhydryl Compounds chemistry, Vinyl Compounds chemical synthesis

Abstract

Described herein are the scope and limitations using Tp*Rh(PPh(3))(2) as a catalyst for alkyne hydrothiolation with alkyl thiols. In general, catalytic hydrothiolation proceeds in high yields and with high regioselectivity for a wide range of alkynes and thiols. A variety of functional groups were well-tolerated, including nitriles, amines, halogens, ethers, esters and silanes, although strongly coordinating groups were found to be incompatible with hydrothiolation. Both sterically encumbered alkynes and thiols were successful in hydrothiolation. Electron rich alkynes react more rapidly than electron deficient alkynes. Overall, this hydrothiolation protocol provides convenient access to a variety of functionalized branched alkyl vinyl sulfides.

Published

2009