Hajime Saburi scite author profile

An environmentally benign synthesis of allyl ethers has been developed which can be applied to a highly chemoselective protection of hydroxyl groups. A highly efficient [CpRu]–2‐quinolinecarboxylic acid (L) catalytic system was successfully employed for the dehydrative allylation of various alcohols without additional activators and solvent (see scheme; R=alkyl, aryl, multifunctional alkyl, Cp=C5H5).

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CpRu^IIPF₆/Quinaldic Acid-Catalyzed Chemoselective Allyl Ether Cleavage. A Simple and Practical Method for Hydroxyl Deprotection

Tanaka

Saburi

Ishibashi

et al. 2004

Org. Lett.

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A cationic CpRu(II) complex in combination with quinaldic acid shows high reactivity and chemoselectivity for the catalytic deprotection of hydroxyl groups protected as allyl ethers. The catalyst operates in alcoholic solvents without the need for any additional nucleophiles, satisfying the practical requirements of operational simplicity, safety, and environmental friendliness. The wide applicability of this deprotection strategy to a variety of multifunctional molecules, including peptides and nucleosides, may provide new opportunities in protective group chemistry. [structure: see text]

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Multiple binding modes of a small molecule to human Keap1 revealed by X‐ray crystallography and molecular dynamics simulation

et al. 2015

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[CpRu(IV)(π‐C₃H₅)(2‐quinolinecarboxylato)]PF₆ Complex: A Robust Catalyst for the Cleavage and Formation of Allyl Ethers

2006

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A facile and efficient method for the quantitative synthesis of [CpRu(IV)(p-C 3 H 5 )(2-quinolinecarboxylato)]PF 6 from [CpRu(CH 3 CN) 3 ]PF 6 , 2-quinolinecarboxylic acid, and 2-propen-1-ol has been established. The cationic Ru(IV) complex is air-and moisture-stable, and can be stored in a vial for at least six months. This complex realizes a simple and easy operation for both the deallylation of allyl ethers in methanol and the dehydrative allylation of alcohols. Furthermore, with removal of the volatile allyl methyl ether co-product from the reaction system, the robust catalyst can attain a turnover of 10000 cycles of allyl ether cleavage.

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Hajime Saburi

Catalytic Dehydrative Allylation of Alcohols

CpRu^IIPF₆/Quinaldic Acid-Catalyzed Chemoselective Allyl Ether Cleavage. A Simple and Practical Method for Hydroxyl Deprotection

Multiple binding modes of a small molecule to human Keap1 revealed by X‐ray crystallography and molecular dynamics simulation

[CpRu(IV)(π‐C₃H₅)(2‐quinolinecarboxylato)]PF₆ Complex: A Robust Catalyst for the Cleavage and Formation of Allyl Ethers

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Hajime Saburi

Catalytic Dehydrative Allylation of Alcohols

CpRuIIPF6/Quinaldic Acid-Catalyzed Chemoselective Allyl Ether Cleavage. A Simple and Practical Method for Hydroxyl Deprotection

Multiple binding modes of a small molecule to human Keap1 revealed by X‐ray crystallography and molecular dynamics simulation

[CpRu(IV)(π‐C3H5)(2‐quinolinecarboxylato)]PF6 Complex: A Robust Catalyst for the Cleavage and Formation of Allyl Ethers

Contact Info

Product

Resources

About

CpRu^IIPF₆/Quinaldic Acid-Catalyzed Chemoselective Allyl Ether Cleavage. A Simple and Practical Method for Hydroxyl Deprotection

[CpRu(IV)(π‐C₃H₅)(2‐quinolinecarboxylato)]PF₆ Complex: A Robust Catalyst for the Cleavage and Formation of Allyl Ethers