Dynamic B/N Lewis Pairs: Insights into the Structural Variations and Photochromism via Light-Induced Fluorescence to Phosphorescence Switching

Yafei Shi; Yi Zeng; Pavel Kucheryavy; Xiaodong Yin; Kai Zhang; Guoyun Meng; Jinfa Chen; Qian Zhu; Nan Wang; Xiaoyan Zheng; Frieder Jäkle; Pangkuan Chen

doi:10.1002/anie.202213615

Dynamic B/N Lewis Pairs: Insights into the Structural Variations and Photochromism via Light-Induced Fluorescence to Phosphorescence Switching

Yafei Shi, Yi Zeng, Pavel Kucheryavy, Xiaodong Yin, Kai Zhang, Guoyun Meng, Jinfa Chen, Qian Zhu, Nan Wang, Xiaoyan Zheng^*, Frieder Jäkle^*, Pangkuan Chen^*

^*此作品的通讯作者

化学与化工学院

科研成果: 期刊稿件 › 文章 › 同行评审

29 引用（Scopus）

摘要

Ultralong afterglow emissions due to room-temperature phosphorescence (RTP) are of paramount importance in the advancement of smart sensors, bioimaging and light-emitting devices. We herein present an efficient approach to achieve rarely accessible phosphorescence of heavy atom-free organoboranes via photochemical switching of sterically tunable fluorescent Lewis pairs (LPs). LPs are widely applied in and well-known for their outstanding performance in catalysis and supramolecular soft materials but have not thus far been exploited to develop photo-responsive RTP materials. The intramolecular LP M1BNM not only shows a dynamic response to thermal treatment due to reversible N→B coordination but crystals of M1BNM also undergo rapid photochromic switching. As a result, unusual emission switching from short-lived fluorescence to long-lived phosphorescence (rad-M1BNM, τ_RTP=232 ms) is observed. The reported discoveries in the field of Lewis pairs chemistry offer important insights into their structural dynamics, while also pointing to new opportunities for photoactive materials with implications for fast responsive detectors.

源语言	英语
文章编号	e202213615
期刊	Angewandte Chemie - International Edition
卷	61
期	51
DOI	https://doi.org/10.1002/anie.202213615
出版状态	已出版 - 19 12月 2022

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Shi, Y., Zeng, Y., Kucheryavy, P., Yin, X., Zhang, K., Meng, G., Chen, J., Zhu, Q., Wang, N., Zheng, X., Jäkle, F., & Chen, P. (2022). Dynamic B/N Lewis Pairs: Insights into the Structural Variations and Photochromism via Light-Induced Fluorescence to Phosphorescence Switching. Angewandte Chemie - International Edition, 61(51), 文章 e202213615. https://doi.org/10.1002/anie.202213615

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title = "Dynamic B/N Lewis Pairs: Insights into the Structural Variations and Photochromism via Light-Induced Fluorescence to Phosphorescence Switching",

abstract = "Ultralong afterglow emissions due to room-temperature phosphorescence (RTP) are of paramount importance in the advancement of smart sensors, bioimaging and light-emitting devices. We herein present an efficient approach to achieve rarely accessible phosphorescence of heavy atom-free organoboranes via photochemical switching of sterically tunable fluorescent Lewis pairs (LPs). LPs are widely applied in and well-known for their outstanding performance in catalysis and supramolecular soft materials but have not thus far been exploited to develop photo-responsive RTP materials. The intramolecular LP M1BNM not only shows a dynamic response to thermal treatment due to reversible N→B coordination but crystals of M1BNM also undergo rapid photochromic switching. As a result, unusual emission switching from short-lived fluorescence to long-lived phosphorescence (rad-M1BNM, τRTP=232 ms) is observed. The reported discoveries in the field of Lewis pairs chemistry offer important insights into their structural dynamics, while also pointing to new opportunities for photoactive materials with implications for fast responsive detectors.",

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author = "Yafei Shi and Yi Zeng and Pavel Kucheryavy and Xiaodong Yin and Kai Zhang and Guoyun Meng and Jinfa Chen and Qian Zhu and Nan Wang and Xiaoyan Zheng and Frieder J{\"a}kle and Pangkuan Chen",

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doi = "10.1002/anie.202213615",

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Shi, Y, Zeng, Y, Kucheryavy, P, Yin, X, Zhang, K, Meng, G, Chen, J, Zhu, Q, Wang, N , Zheng, X, Jäkle, F & Chen, P 2022, 'Dynamic B/N Lewis Pairs: Insights into the Structural Variations and Photochromism via Light-Induced Fluorescence to Phosphorescence Switching', Angewandte Chemie - International Edition, 卷 61, 号码 51, e202213615. https://doi.org/10.1002/anie.202213615

TY - JOUR

T1 - Dynamic B/N Lewis Pairs

T2 - Insights into the Structural Variations and Photochromism via Light-Induced Fluorescence to Phosphorescence Switching

AU - Shi, Yafei

AU - Zeng, Yi

AU - Kucheryavy, Pavel

AU - Yin, Xiaodong

AU - Zhang, Kai

AU - Meng, Guoyun

AU - Chen, Jinfa

AU - Zhu, Qian

AU - Wang, Nan

AU - Zheng, Xiaoyan

AU - Jäkle, Frieder

AU - Chen, Pangkuan

PY - 2022/12/19

Y1 - 2022/12/19

N2 - Ultralong afterglow emissions due to room-temperature phosphorescence (RTP) are of paramount importance in the advancement of smart sensors, bioimaging and light-emitting devices. We herein present an efficient approach to achieve rarely accessible phosphorescence of heavy atom-free organoboranes via photochemical switching of sterically tunable fluorescent Lewis pairs (LPs). LPs are widely applied in and well-known for their outstanding performance in catalysis and supramolecular soft materials but have not thus far been exploited to develop photo-responsive RTP materials. The intramolecular LP M1BNM not only shows a dynamic response to thermal treatment due to reversible N→B coordination but crystals of M1BNM also undergo rapid photochromic switching. As a result, unusual emission switching from short-lived fluorescence to long-lived phosphorescence (rad-M1BNM, τRTP=232 ms) is observed. The reported discoveries in the field of Lewis pairs chemistry offer important insights into their structural dynamics, while also pointing to new opportunities for photoactive materials with implications for fast responsive detectors.

AB - Ultralong afterglow emissions due to room-temperature phosphorescence (RTP) are of paramount importance in the advancement of smart sensors, bioimaging and light-emitting devices. We herein present an efficient approach to achieve rarely accessible phosphorescence of heavy atom-free organoboranes via photochemical switching of sterically tunable fluorescent Lewis pairs (LPs). LPs are widely applied in and well-known for their outstanding performance in catalysis and supramolecular soft materials but have not thus far been exploited to develop photo-responsive RTP materials. The intramolecular LP M1BNM not only shows a dynamic response to thermal treatment due to reversible N→B coordination but crystals of M1BNM also undergo rapid photochromic switching. As a result, unusual emission switching from short-lived fluorescence to long-lived phosphorescence (rad-M1BNM, τRTP=232 ms) is observed. The reported discoveries in the field of Lewis pairs chemistry offer important insights into their structural dynamics, while also pointing to new opportunities for photoactive materials with implications for fast responsive detectors.

KW - Dynamic Lewis Pairs

KW - Organoboron

KW - Phosphorescence

KW - Photochromism

KW - Responsive Emission

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U2 - 10.1002/anie.202213615

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SN - 1433-7851

VL - 61

JO - Angewandte Chemie - International Edition

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ER -

Dynamic B/N Lewis Pairs: Insights into the Structural Variations and Photochromism via Light-Induced Fluorescence to Phosphorescence Switching

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