A Versatile Synthetic Method for Photophysically and Chemically Stable [5]Rotaxane-Type Fluorescence Dyes of Various Colors by Using a Cooperative Capture Strategy

Yuki Ohishi; Kohei Nishioki; Yuta Miyaoka; Keita Serizawa; Souma Sugawara; Koichiro Hayashi; Daichi Inoue; Munetaka Iwamura; Satoru Yokoyama; Junya Chiba; Masahiko Inouye

doi:10.1002/adom.202301457

A Versatile Synthetic Method for Photophysically and Chemically Stable [5]Rotaxane-Type Fluorescence Dyes of Various Colors by Using a Cooperative Capture Strategy

Yuki Ohishi^*, Kohei Nishioki, Yuta Miyaoka, Keita Serizawa, Souma Sugawara, Koichiro Hayashi, Daichi Inoue, Munetaka Iwamura, Satoru Yokoyama, Junya Chiba, Masahiko Inouye^*

^*Corresponding author for this work

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

4 Scopus citations

Abstract

Rotaxane-type fluorescence dyes promise applications of optical and biological interest because their inner fluorescence cores are protected in inseparable host–guest systems. However, there are few relevant reports of such rotaxane-type fluorescence dyes due to the difficulty of their syntheses. Here, a versatile synthetic method is established for [5]rotaxane-type fluorescence dyes by employing a cooperative capture strategy. Using this method, [5]rotaxanes with emission colors ranging from blue to red are synthesized successfully. These [5]rotaxanes show higher emission quantum yields than the corresponding naked fluorescence dyes in water and even in the solid state. Furthermore, these rotaxanes show photostability and chemical stability, demonstrating the high applicability of [5]rotaxane-type fluorescence dyes for a variety of emitting materials.

Original language	English
Article number	2301457
Journal	Advanced Optical Materials
Volume	12
Issue number	3
DOIs	https://doi.org/10.1002/adom.202301457
State	Published - 2024/01/25

Keywords

cyclodextrins
dyes/pigments
fluorescence
host–guest systems
rotaxanes

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Atomic and Molecular Physics, and Optics

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10.1002/adom.202301457

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Ohishi, Y., Nishioki, K., Miyaoka, Y., Serizawa, K., Sugawara, S., Hayashi, K., Inoue, D., Iwamura, M., Yokoyama, S., Chiba, J., & Inouye, M. (2024). A Versatile Synthetic Method for Photophysically and Chemically Stable [5]Rotaxane-Type Fluorescence Dyes of Various Colors by Using a Cooperative Capture Strategy. Advanced Optical Materials, 12(3), Article 2301457. https://doi.org/10.1002/adom.202301457

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title = "A Versatile Synthetic Method for Photophysically and Chemically Stable [5]Rotaxane-Type Fluorescence Dyes of Various Colors by Using a Cooperative Capture Strategy",

abstract = "Rotaxane-type fluorescence dyes promise applications of optical and biological interest because their inner fluorescence cores are protected in inseparable host–guest systems. However, there are few relevant reports of such rotaxane-type fluorescence dyes due to the difficulty of their syntheses. Here, a versatile synthetic method is established for [5]rotaxane-type fluorescence dyes by employing a cooperative capture strategy. Using this method, [5]rotaxanes with emission colors ranging from blue to red are synthesized successfully. These [5]rotaxanes show higher emission quantum yields than the corresponding naked fluorescence dyes in water and even in the solid state. Furthermore, these rotaxanes show photostability and chemical stability, demonstrating the high applicability of [5]rotaxane-type fluorescence dyes for a variety of emitting materials.",

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author = "Yuki Ohishi and Kohei Nishioki and Yuta Miyaoka and Keita Serizawa and Souma Sugawara and Koichiro Hayashi and Daichi Inoue and Munetaka Iwamura and Satoru Yokoyama and Junya Chiba and Masahiko Inouye",

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Ohishi, Y, Nishioki, K, Miyaoka, Y, Serizawa, K, Sugawara, S, Hayashi, K, Inoue, D, Iwamura, M , Yokoyama, S , Chiba, J & Inouye, M 2024, 'A Versatile Synthetic Method for Photophysically and Chemically Stable [5]Rotaxane-Type Fluorescence Dyes of Various Colors by Using a Cooperative Capture Strategy', Advanced Optical Materials, vol. 12, no. 3, 2301457. https://doi.org/10.1002/adom.202301457

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AU - Ohishi, Yuki

AU - Nishioki, Kohei

AU - Miyaoka, Yuta

AU - Serizawa, Keita

AU - Sugawara, Souma

AU - Hayashi, Koichiro

AU - Inoue, Daichi

AU - Iwamura, Munetaka

AU - Yokoyama, Satoru

AU - Chiba, Junya

AU - Inouye, Masahiko

PY - 2024/1/25

Y1 - 2024/1/25

N2 - Rotaxane-type fluorescence dyes promise applications of optical and biological interest because their inner fluorescence cores are protected in inseparable host–guest systems. However, there are few relevant reports of such rotaxane-type fluorescence dyes due to the difficulty of their syntheses. Here, a versatile synthetic method is established for [5]rotaxane-type fluorescence dyes by employing a cooperative capture strategy. Using this method, [5]rotaxanes with emission colors ranging from blue to red are synthesized successfully. These [5]rotaxanes show higher emission quantum yields than the corresponding naked fluorescence dyes in water and even in the solid state. Furthermore, these rotaxanes show photostability and chemical stability, demonstrating the high applicability of [5]rotaxane-type fluorescence dyes for a variety of emitting materials.

AB - Rotaxane-type fluorescence dyes promise applications of optical and biological interest because their inner fluorescence cores are protected in inseparable host–guest systems. However, there are few relevant reports of such rotaxane-type fluorescence dyes due to the difficulty of their syntheses. Here, a versatile synthetic method is established for [5]rotaxane-type fluorescence dyes by employing a cooperative capture strategy. Using this method, [5]rotaxanes with emission colors ranging from blue to red are synthesized successfully. These [5]rotaxanes show higher emission quantum yields than the corresponding naked fluorescence dyes in water and even in the solid state. Furthermore, these rotaxanes show photostability and chemical stability, demonstrating the high applicability of [5]rotaxane-type fluorescence dyes for a variety of emitting materials.

KW - cyclodextrins

KW - dyes/pigments

KW - fluorescence

KW - host–guest systems

KW - rotaxanes

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A Versatile Synthetic Method for Photophysically and Chemically Stable [5]Rotaxane-Type Fluorescence Dyes of Various Colors by Using a Cooperative Capture Strategy

Abstract

Keywords

ASJC Scopus subject areas

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