Construction of Structurally Rigid Azulen-6-ones via Migratory Rearrangement of Spirocycles and Their Photophysical Studies

Xiumei Liu; Wenhua Xu; Fang Fang; Nengni Xu; Zhishuang Lin; Xinjun Luan; Jinfeng Zhang; Hui Wang

doi:10.1021/acs.orglett.1c02841

Construction of Structurally Rigid Azulen-6-ones via Migratory Rearrangement of Spirocycles and Their Photophysical Studies

Xiumei Liu, Wenhua Xu, Fang Fang, Nengni Xu, Zhishuang Lin, Xinjun Luan, Jinfeng Zhang^*, Hui Wang^*

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摘要

We report the synthesis of polysubstituted 1,1,2,3-tetraarylazulen-6-ones through the ring opening and scaffold rearrangement of spirocycles in the presence of ferric chloride under ambient conditions. Control experiments shown that this reaction may proceeded through a radical cation mechanism and futher theoretical calculation revealed that the electronic distribution of the radical cation intermediate dominated this oxidative rearrangement instead of dehydrogenation. It is noteworthy that some interesting photophysical properties, including aggregation-induced emission, halochromism, and two-photon fluorescence, were discovered for the azulen-6-one 2a, making them to work as promising functional materials in optical-related fields.

源语言	英语
页（从-至）	8662-8667
页数	6
期刊	Organic Letters
卷	23
期	22
DOI	https://doi.org/10.1021/acs.orglett.1c02841
出版状态	已出版 - 19 11月 2021

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abstract = "We report the synthesis of polysubstituted 1,1,2,3-tetraarylazulen-6-ones through the ring opening and scaffold rearrangement of spirocycles in the presence of ferric chloride under ambient conditions. Control experiments shown that this reaction may proceeded through a radical cation mechanism and futher theoretical calculation revealed that the electronic distribution of the radical cation intermediate dominated this oxidative rearrangement instead of dehydrogenation. It is noteworthy that some interesting photophysical properties, including aggregation-induced emission, halochromism, and two-photon fluorescence, were discovered for the azulen-6-one 2a, making them to work as promising functional materials in optical-related fields.",

author = "Xiumei Liu and Wenhua Xu and Fang Fang and Nengni Xu and Zhishuang Lin and Xinjun Luan and Jinfeng Zhang and Hui Wang",

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AU - Liu, Xiumei

AU - Xu, Wenhua

AU - Fang, Fang

AU - Xu, Nengni

AU - Lin, Zhishuang

AU - Luan, Xinjun

AU - Zhang, Jinfeng

AU - Wang, Hui

PY - 2021/11/19

Y1 - 2021/11/19

N2 - We report the synthesis of polysubstituted 1,1,2,3-tetraarylazulen-6-ones through the ring opening and scaffold rearrangement of spirocycles in the presence of ferric chloride under ambient conditions. Control experiments shown that this reaction may proceeded through a radical cation mechanism and futher theoretical calculation revealed that the electronic distribution of the radical cation intermediate dominated this oxidative rearrangement instead of dehydrogenation. It is noteworthy that some interesting photophysical properties, including aggregation-induced emission, halochromism, and two-photon fluorescence, were discovered for the azulen-6-one 2a, making them to work as promising functional materials in optical-related fields.

AB - We report the synthesis of polysubstituted 1,1,2,3-tetraarylazulen-6-ones through the ring opening and scaffold rearrangement of spirocycles in the presence of ferric chloride under ambient conditions. Control experiments shown that this reaction may proceeded through a radical cation mechanism and futher theoretical calculation revealed that the electronic distribution of the radical cation intermediate dominated this oxidative rearrangement instead of dehydrogenation. It is noteworthy that some interesting photophysical properties, including aggregation-induced emission, halochromism, and two-photon fluorescence, were discovered for the azulen-6-one 2a, making them to work as promising functional materials in optical-related fields.

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SN - 1523-7060

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JO - Organic Letters

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Construction of Structurally Rigid Azulen-6-ones via Migratory Rearrangement of Spirocycles and Their Photophysical Studies

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