Your search keyword '"Hada, Kenshiro"' showing total 11 results

1. Transition‐Metal‐Free Approach for Z‐Vinyl Fluorides by Hydrofluorination of Alkynes bearing SF4 and SF5 Groups.

Author

Murata, Yusuke, Hada, Kenshiro, Aggarwal, Trapti, Escorihuela, Jorge, and Shibata, Norio

Subjects

*FLUOROETHYLENE, *DRUG discovery, *ALKYNES, *ISOMER synthesis, *MATERIALS science, *FLUOROPOLYMERS

Abstract

The synthesis of vinyl fluorides plays a crucial role in various scientific disciplines, including pharmaceutical and materials sciences. Herein, we present a direct and stereoselective hydrofluorination method for the synthesis of Z isomers of vinyl fluorides from alkynes containing unexplored SF5 and SF4 groups. Our strategy employed tetrabutylammonium fluoride (TBAF) as a fluorine source. It demonstrates high compatibility with aryls, biaryls, heteroaryls, and tert‐alkyl groups, allowing facile incorporation of SF5 and SF4 groups across the triple bond without any transition‐metal catalysts. This approach avoids the potential decomposition of the SF5 or SF4 units via coordination with transition metals or acidic protic sources. Remarkably, this transformation proceeded at room temperature without any additional additives, providing the Z isomer of vinyl fluorides in excellent yield and high selectivity. The presence of a water molecule as a hydrate in TBAF is essential for efficient conversion. This methodology opens new avenues for the synthesis of enchanting SF5‐ and SF4‐containing fluorinated vinylic scaffolds, thereby providing advanced opportunities for novel drug discovery and fluorinated polymers. [ABSTRACT FROM AUTHOR]

Published

2024

2. Regio‐ and Z‐Selective Alkyne Hydroamination and Hydrophenoxylation using Tetrafluoro‐λ6‐Sulfanyl Alkynes under Superbasic, Naked Anion Conditions

Author

Aggarwal, Trapti, primary, Hada, Kenshiro, additional, Murata, Yusuke, additional, Sumii, Yuji, additional, Tanagawa, Kazuhiro, additional, Niina, Kiyoteru, additional, Mori, Soichiro, additional, Escorihuela, Jorge, additional, and Shibata, Norio, additional

Published

2023

3. 直線的分子連結を実現するテトラフルオロスルファニル化合物群：合成と開拓

Author

Mori, Soichiro, primary, Hada, Kenshiro, additional, and Shibata, Norio, additional

Published

2023

4. Synthesis of Pyridine-SF4-alkynes via Light-promoted Radical Coupling of Pyridine-SF4-chlorides and EBX Reagents

Author

Mahmoud, Elsayed M., primary, Iwasaki, Hiroto, additional, Hada, Kenshiro, additional, Murata, Yusuke, additional, Sumii, Yuji, additional, and Shibata, Norio, additional

Published

2022

5. Regio‐ and Z‐Selective Alkyne Hydroamination and Hydrophenoxylation using Tetrafluoro‐λ6‐Sulfanyl Alkynes under Superbasic, Naked Anion Conditions.

Author

Aggarwal, Trapti, Hada, Kenshiro, Murata, Yusuke, Sumii, Yuji, Tanagawa, Kazuhiro, Niina, Kiyoteru, Mori, Soichiro, Escorihuela, Jorge, and Shibata, Norio

Subjects

*HYDROAMINATION, *ENAMINES, *ALKYNES, *CARBAZOLE, *VINYL ethers, *ANIONS

Abstract

Alkyne hydroamination is an effective approach for the production of enamines and enamine‐containing N‐heterocycles. However, stereoselectivity control is a considerable challenge in this reaction because of the electronic repulsion between an incoming nitrogen lone pair and the alkyne π‐system. Herein, we propose a methodology involving β‐regio‐ and Z‐selective alkyne hydroamination by using tetrafluoro‐λ6‐sulfanyl (SF4) alkynes under superbasic, naked anion conditions. The reaction is compatible with a wide variety of N‐heterocycles, including indoles, carbazoles, pyrazoles, and imidazoles, and selectively furnishes SF4‐linked Z‐vinyl enamines with β‐regioselectively. Moreover, the method can be extended to the β‐ and Z‐controlled, base‐mediated alkyne hydrophenoxylation with phenols to provide SF4‐linked Z‐vinyl ethers in high yields. As the SF4 unit has attracted attention as a bioisostere for alkynes, p‐benzenes, bicyclo[1.1.1]pentyl (BCP) groups, and cubanes in medicinal chemistry, this chemistry represents an effective approach to creating novel drug candidates incorporating SF4‐containing molecules. [ABSTRACT FROM AUTHOR]

Published

2023

6. Synthesis of Pyridine–SF4–Isoxazolines Using the Functionality of trans-Tetrafluoro-λ6-sulfanyl Rodlike Linkers

Author

Maruno, Koki, primary, Hada, Kenshiro, additional, Sumii, Yuji, additional, Nagata, Osamu, additional, and Shibata, Norio, additional

Published

2022

7. Synthesis of Pyridine–SF4–Isoxazolines Using the Functionality of trans-Tetrafluoro‑λ6‑sulfanyl Rodlike Linkers.

Author

Maruno, Koki, Hada, Kenshiro, Sumii, Yuji, Nagata, Osamu, and Shibata, Norio

Published

2022

8. Synthesis of Pyridine-SF4-Alkynes via Light-Promoted Radical Coupling of Pyridine-SF4-Chlorides and EBX Reagents

Author

Mahmoud, Elsayed M, Iwasaki, Hiroto, Hada, Kenshiro, Murata, Yusuke, Sumii, Yuji, and Shibata, Norio

Abstract

Pyridine-tetrafluoro-?6-sulfanyl-alkynes have emerged as building blocks for synthesizing linearly-linked pyridine-heterocycles. They are prepared via a two-step procedure comprising the radical addition of pyridine-tetrafluoro-?6-sulfanyl-chlorides and alkynes and subsequent base-promoted elimination of HCl. Herein we developed a straightforward alternative synthesis via the radical coupling of pyridine-tetrafluoro-?6-sulfanyl-chlorides with ethynylbenziodoxolone reagents under LED irradiation.Pyridine-tetrafluoro-?6-sulfanyl-alkynes have emerged as building blocks for synthesizing linearly-linked pyridine-heterocycles. They are prepared via a two-step procedure of the radical addition of pyridine-tetrafluoro-?6-sulfanyl-chlorides and alkynes and subsequent base-promoted elimination of HCl. Herein we developed a straightforward alternative synthesis via the radical coupling of pyridine-tetrafluoro-?6-sulfanyl-chlorides with ethynylbenziodoxolone reagents under LED irradiation. Consequently, a wide variety of pyridine-tetrafluoro-?6-sulfanyl-alkynes were accessed.

Published

2023

9. Transition-Metal-Free Approach for Z-Vinyl Fluorides by Hydrofluorination of Alkynes bearing SF 4 and SF 5 Groups.

Author

Murata Y, Hada K, Aggarwal T, Escorihuela J, and Shibata N

Abstract

The synthesis of vinyl fluorides plays a crucial role in various scientific disciplines, including pharmaceutical and materials sciences. Herein, we present a direct and stereoselective hydrofluorination method for the synthesis of Z isomers of vinyl fluorides from alkynes containing unexplored SF 5 and SF 4 groups. Our strategy employed tetrabutylammonium fluoride (TBAF) as a fluorine source. It demonstrates high compatibility with aryls, biaryls, heteroaryls, and tert-alkyl groups, allowing facile incorporation of SF 5 and SF 4 groups across the triple bond without any transition-metal catalysts. This approach avoids the potential decomposition of the SF 5 or SF 4 units via coordination with transition metals or acidic protic sources. Remarkably, this transformation proceeded at room temperature without any additional additives, providing the Z isomer of vinyl fluorides in excellent yield and high selectivity. The presence of a water molecule as a hydrate in TBAF is essential for efficient conversion. This methodology opens new avenues for the synthesis of enchanting SF 5 - and SF 4 -containing fluorinated vinylic scaffolds, thereby providing advanced opportunities for novel drug discovery and fluorinated polymers., (© 2024 Wiley-VCH GmbH.)

Published

2024

10. Regio- and Z-Selective Alkyne Hydroamination and Hydrophenoxylation using Tetrafluoro-λ 6 -Sulfanyl Alkynes under Superbasic, Naked Anion Conditions.

Author

Aggarwal T, Hada K, Murata Y, Sumii Y, Tanagawa K, Niina K, Mori S, Escorihuela J, and Shibata N

Abstract

Alkyne hydroamination is an effective approach for the production of enamines and enamine-containing N-heterocycles. However, stereoselectivity control is a considerable challenge in this reaction because of the electronic repulsion between an incoming nitrogen lone pair and the alkyne π-system. Herein, we propose a methodology involving β-regio- and Z-selective alkyne hydroamination by using tetrafluoro-λ 6 -sulfanyl (SF 4 ) alkynes under superbasic, naked anion conditions. The reaction is compatible with a wide variety of N-heterocycles, including indoles, carbazoles, pyrazoles, and imidazoles, and selectively furnishes SF 4 -linked Z-vinyl enamines with β-regioselectively. Moreover, the method can be extended to the β- and Z-controlled, base-mediated alkyne hydrophenoxylation with phenols to provide SF 4 -linked Z-vinyl ethers in high yields. As the SF 4 unit has attracted attention as a bioisostere for alkynes, p-benzenes, bicyclo[1.1.1]pentyl (BCP) groups, and cubanes in medicinal chemistry, this chemistry represents an effective approach to creating novel drug candidates incorporating SF 4 -containing molecules., (© 2023 Wiley-VCH GmbH.)

Published

2023

11. Synthesis of Pyridine-SF 4 -Isoxazolines Using the Functionality of trans -Tetrafluoro-λ 6 -sulfanyl Rodlike Linkers.

Author

Maruno K, Hada K, Sumii Y, Nagata O, and Shibata N

Subjects

Cycloaddition Reaction, Alkynes, Pyridines

Abstract

The tetrafluoro-λ 6 -sulfanyl (SF 4 ) moiety has been relatively undeveloped since its discovery in the 1970s. In this study, we synthesized pyridine-SF 4 -isoxazolines, in which the two heterocycles are connected by a rodlike trans -SF 4 linker, via the regioselective 1,3-dipolar cycloaddition of pyridine-SF 4 -alkynes and nitrones in the presence of triethylamine. SF 4 linkers are a viable alternative to para-substituted benzenes, alkynes, and bicyclo[1.1.1]pentyl derivatives in drug design, and pyridine-SF 4 -isoxazolines have potential applications in drug development.

Published

2022