Stabilising fleeting intermediates of stilbene photocyclization with amino-borane functionalisation: The rare isolation of persistent dihydrophenanthrenes and their [1,5] H-shift isomers

Yong Gang Shi; Soren K. Mellerup; Kang Yuan; Guo Fei Hu; Francoise Sauriol; Tai Peng; Nan Wang; Pangkuan Chen; Suning Wang

doi:10.1039/c8sc00560e

Stabilising fleeting intermediates of stilbene photocyclization with amino-borane functionalisation: The rare isolation of persistent dihydrophenanthrenes and their [1,5] H-shift isomers

Yong Gang Shi, Soren K. Mellerup, Kang Yuan, Guo Fei Hu, Francoise Sauriol, Tai Peng, Nan Wang^*, Pangkuan Chen, Suning Wang

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化学与化工学院

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37 引用（Scopus）

摘要

The key intermediate, 4a,4b-dihydrophenanthrene (DPH), involved in the photocyclization of stilbene and derivatives is known to be unstable, and is therefore poorly characterized/understood. We have found that functionalising stilbenes with NMe₂ and BMes₂ groups can greatly enhance the stability of 4a,4b-DPHs, allowing quantitative isolation and full characterization of these rare species. Furthermore, we discovered that the new amino-borane decorated 4a,4b-DPHs can undergo thermal [1,5] H sigmatropic shift, forming isomers 4a,10a-DPHs. Both 4a,4b-DHPs and 4a,10a-DHPs are stable towards air and moisture, while only the former were found to undergo oxidative dehydrogenation upon irradiation at 365 nm under air, yielding brightly blue/green fluorescent NMe₂ and BMes₂ functionalised phenanthrene analogues. Control studies established that the trans-Mes₂B-Ph-NMe₂ unit is responsible for the stability of these isolated 4a,4b-DHPs and their [1,5]-H shift isomers.

源语言	英语
页（从-至）	3844-3855
页数	12
期刊	Chemical Science
卷	9
期	15
DOI	https://doi.org/10.1039/c8sc00560e
出版状态	已出版 - 2018

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Shi, Y. G., Mellerup, S. K., Yuan, K., Hu, G. F., Sauriol, F., Peng, T., Wang, N., Chen, P., & Wang, S. (2018). Stabilising fleeting intermediates of stilbene photocyclization with amino-borane functionalisation: The rare isolation of persistent dihydrophenanthrenes and their [1,5] H-shift isomers. Chemical Science, 9(15), 3844-3855. https://doi.org/10.1039/c8sc00560e

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title = "Stabilising fleeting intermediates of stilbene photocyclization with amino-borane functionalisation: The rare isolation of persistent dihydrophenanthrenes and their [1,5] H-shift isomers",

abstract = "The key intermediate, 4a,4b-dihydrophenanthrene (DPH), involved in the photocyclization of stilbene and derivatives is known to be unstable, and is therefore poorly characterized/understood. We have found that functionalising stilbenes with NMe2 and BMes2 groups can greatly enhance the stability of 4a,4b-DPHs, allowing quantitative isolation and full characterization of these rare species. Furthermore, we discovered that the new amino-borane decorated 4a,4b-DPHs can undergo thermal [1,5] H sigmatropic shift, forming isomers 4a,10a-DPHs. Both 4a,4b-DHPs and 4a,10a-DHPs are stable towards air and moisture, while only the former were found to undergo oxidative dehydrogenation upon irradiation at 365 nm under air, yielding brightly blue/green fluorescent NMe2 and BMes2 functionalised phenanthrene analogues. Control studies established that the trans-Mes2B-Ph-NMe2 unit is responsible for the stability of these isolated 4a,4b-DHPs and their [1,5]-H shift isomers.",

author = "Shi, {Yong Gang} and Mellerup, {Soren K.} and Kang Yuan and Hu, {Guo Fei} and Francoise Sauriol and Tai Peng and Nan Wang and Pangkuan Chen and Suning Wang",

note = "Publisher Copyright: {\textcopyright} The Royal Society of Chemistry 2018.",

year = "2018",

doi = "10.1039/c8sc00560e",

language = "English",

volume = "9",

pages = "3844--3855",

journal = "Chemical Science",

issn = "2041-6520",

publisher = "Royal Society of Chemistry",

number = "15",

}

Shi, YG, Mellerup, SK, Yuan, K, Hu, GF, Sauriol, F, Peng, T, Wang, N , Chen, P & Wang, S 2018, 'Stabilising fleeting intermediates of stilbene photocyclization with amino-borane functionalisation: The rare isolation of persistent dihydrophenanthrenes and their [1,5] H-shift isomers', Chemical Science, 卷 9, 号码 15, 页码 3844-3855. https://doi.org/10.1039/c8sc00560e

TY - JOUR

T1 - Stabilising fleeting intermediates of stilbene photocyclization with amino-borane functionalisation

T2 - The rare isolation of persistent dihydrophenanthrenes and their [1,5] H-shift isomers

AU - Shi, Yong Gang

AU - Mellerup, Soren K.

AU - Yuan, Kang

AU - Hu, Guo Fei

AU - Sauriol, Francoise

AU - Peng, Tai

AU - Wang, Nan

AU - Chen, Pangkuan

AU - Wang, Suning

PY - 2018

Y1 - 2018

N2 - The key intermediate, 4a,4b-dihydrophenanthrene (DPH), involved in the photocyclization of stilbene and derivatives is known to be unstable, and is therefore poorly characterized/understood. We have found that functionalising stilbenes with NMe2 and BMes2 groups can greatly enhance the stability of 4a,4b-DPHs, allowing quantitative isolation and full characterization of these rare species. Furthermore, we discovered that the new amino-borane decorated 4a,4b-DPHs can undergo thermal [1,5] H sigmatropic shift, forming isomers 4a,10a-DPHs. Both 4a,4b-DHPs and 4a,10a-DHPs are stable towards air and moisture, while only the former were found to undergo oxidative dehydrogenation upon irradiation at 365 nm under air, yielding brightly blue/green fluorescent NMe2 and BMes2 functionalised phenanthrene analogues. Control studies established that the trans-Mes2B-Ph-NMe2 unit is responsible for the stability of these isolated 4a,4b-DHPs and their [1,5]-H shift isomers.

AB - The key intermediate, 4a,4b-dihydrophenanthrene (DPH), involved in the photocyclization of stilbene and derivatives is known to be unstable, and is therefore poorly characterized/understood. We have found that functionalising stilbenes with NMe2 and BMes2 groups can greatly enhance the stability of 4a,4b-DPHs, allowing quantitative isolation and full characterization of these rare species. Furthermore, we discovered that the new amino-borane decorated 4a,4b-DPHs can undergo thermal [1,5] H sigmatropic shift, forming isomers 4a,10a-DPHs. Both 4a,4b-DHPs and 4a,10a-DHPs are stable towards air and moisture, while only the former were found to undergo oxidative dehydrogenation upon irradiation at 365 nm under air, yielding brightly blue/green fluorescent NMe2 and BMes2 functionalised phenanthrene analogues. Control studies established that the trans-Mes2B-Ph-NMe2 unit is responsible for the stability of these isolated 4a,4b-DHPs and their [1,5]-H shift isomers.

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U2 - 10.1039/c8sc00560e

DO - 10.1039/c8sc00560e

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AN - SCOPUS:85045758575

SN - 2041-6520

VL - 9

SP - 3844

EP - 3855

JO - Chemical Science

JF - Chemical Science

IS - 15

ER -

Stabilising fleeting intermediates of stilbene photocyclization with amino-borane functionalisation: The rare isolation of persistent dihydrophenanthrenes and their [1,5] H-shift isomers

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