Development of macroporous polymer monolith immobilizing l-proline-based organocatalyst and application to flow asymmetric aldol addition reaction

Haruka Hattori; Hikaru Matsumoto; Yu Hoshino; Yoshiko Miura

doi:10.1252/kakoronbunshu.46.77

Development of macroporous polymer monolith immobilizing l-proline-based organocatalyst and application to flow asymmetric aldol addition reaction

Haruka Hattori, Hikaru Matsumoto, Yu Hoshino, Yoshiko Miura

Research output: Contribution to journal › Article › peer-review

Abstract

Flow process has attracted attention in the field of fine chemical synthesis. The well-designed immobilized catalyst is powerful tool to realize practical and efficient flow process. A macroporous monolith is a self-standing material with three-dimensional through-pores which ensures large surface area and high permeability. In this study, polyacrylamide-based macroporous monolith containing_L-proline was developed and the porous properties of the monolith was evaluated. The internal structure of monolith was controlled by alcohol (ethanol, 1-butanol, 1-octanol, 1-dodecanol) used as porogen. In addition, the monolith was applied to asymmetric aldol addition reaction in flow system and achieved enantioselectivity of 61‒74% ee at residence time of 12 h. This is the first example that achieved flow asymmetric synthesis using porous polymer monolith with_L-proline.

Original language	English
Pages (from-to)	77-83
Number of pages	7
Journal	kagaku kogaku ronbunshu
Volume	46
Issue number	3
DOIs	https://doi.org/10.1252/kakoronbunshu.46.77
Publication status	Published - 2020

All Science Journal Classification (ASJC) codes

Chemistry(all)
Chemical Engineering(all)

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10.1252/kakoronbunshu.46.77

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title = "Development of macroporous polymer monolith immobilizing l-proline-based organocatalyst and application to flow asymmetric aldol addition reaction",

abstract = "Flow process has attracted attention in the field of fine chemical synthesis. The well-designed immobilized catalyst is powerful tool to realize practical and efficient flow process. A macroporous monolith is a self-standing material with three-dimensional through-pores which ensures large surface area and high permeability. In this study, polyacrylamide-based macroporous monolith containingL-proline was developed and the porous properties of the monolith was evaluated. The internal structure of monolith was controlled by alcohol (ethanol, 1-butanol, 1-octanol, 1-dodecanol) used as porogen. In addition, the monolith was applied to asymmetric aldol addition reaction in flow system and achieved enantioselectivity of 61‒74% ee at residence time of 12 h. This is the first example that achieved flow asymmetric synthesis using porous polymer monolith withL-proline.",

author = "Haruka Hattori and Hikaru Matsumoto and Yu Hoshino and Yoshiko Miura",

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AU - Hattori, Haruka

AU - Matsumoto, Hikaru

AU - Hoshino, Yu

AU - Miura, Yoshiko

PY - 2020

Y1 - 2020

N2 - Flow process has attracted attention in the field of fine chemical synthesis. The well-designed immobilized catalyst is powerful tool to realize practical and efficient flow process. A macroporous monolith is a self-standing material with three-dimensional through-pores which ensures large surface area and high permeability. In this study, polyacrylamide-based macroporous monolith containingL-proline was developed and the porous properties of the monolith was evaluated. The internal structure of monolith was controlled by alcohol (ethanol, 1-butanol, 1-octanol, 1-dodecanol) used as porogen. In addition, the monolith was applied to asymmetric aldol addition reaction in flow system and achieved enantioselectivity of 61‒74% ee at residence time of 12 h. This is the first example that achieved flow asymmetric synthesis using porous polymer monolith withL-proline.

AB - Flow process has attracted attention in the field of fine chemical synthesis. The well-designed immobilized catalyst is powerful tool to realize practical and efficient flow process. A macroporous monolith is a self-standing material with three-dimensional through-pores which ensures large surface area and high permeability. In this study, polyacrylamide-based macroporous monolith containingL-proline was developed and the porous properties of the monolith was evaluated. The internal structure of monolith was controlled by alcohol (ethanol, 1-butanol, 1-octanol, 1-dodecanol) used as porogen. In addition, the monolith was applied to asymmetric aldol addition reaction in flow system and achieved enantioselectivity of 61‒74% ee at residence time of 12 h. This is the first example that achieved flow asymmetric synthesis using porous polymer monolith withL-proline.

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Development of macroporous polymer monolith immobilizing l-proline-based organocatalyst and application to flow asymmetric aldol addition reaction

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