Stimuli-Responsive B/N Lewis Pairs Based on the Modulation of B-N Bond Strength

Qinggao Hou; Lijie Liu; Soren K. Mellerup; Nan Wang; Tai Peng; Pangkuan Chen; Suning Wang

doi:10.1021/acs.orglett.8b02774

Stimuli-Responsive B/N Lewis Pairs Based on the Modulation of B-N Bond Strength

Qinggao Hou, Lijie Liu, Soren K. Mellerup, Nan Wang, Tai Peng, Pangkuan Chen^*, Suning Wang

^*Corresponding author for this work

School of Chemistry and Chemical Engineering

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

41 Citations (Scopus)

Abstract

A series of robust organoboranes with electronically tunable functionality of B/N Lewis pairs has been achieved. These compounds feature a B/N-containing core in which the interactions between the B and N atoms are modulated as a result of the structural flexibility of the nonconjugated backbone. Examination of the substituent effects of the Lewis base moiety reveals that bulky or aryl substituents favor the dynamic switching of the B-N bond in response to external stimuli, such as heat or mechanical pressure, leading to emission color modulation. This work provides a new, straightforward proof of concept toward new switchable materials design based on tunable electronic interactions.

Original language	English
Pages (from-to)	6467-6470
Number of pages	4
Journal	Organic Letters
Volume	20
Issue number	20
DOIs	https://doi.org/10.1021/acs.orglett.8b02774
Publication status	Published - 19 Oct 2018

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10.1021/acs.orglett.8b02774

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title = "Stimuli-Responsive B/N Lewis Pairs Based on the Modulation of B-N Bond Strength",

abstract = "A series of robust organoboranes with electronically tunable functionality of B/N Lewis pairs has been achieved. These compounds feature a B/N-containing core in which the interactions between the B and N atoms are modulated as a result of the structural flexibility of the nonconjugated backbone. Examination of the substituent effects of the Lewis base moiety reveals that bulky or aryl substituents favor the dynamic switching of the B-N bond in response to external stimuli, such as heat or mechanical pressure, leading to emission color modulation. This work provides a new, straightforward proof of concept toward new switchable materials design based on tunable electronic interactions.",

author = "Qinggao Hou and Lijie Liu and Mellerup, {Soren K.} and Nan Wang and Tai Peng and Pangkuan Chen and Suning Wang",

note = "Publisher Copyright: {\textcopyright} 2018 American Chemical Society.",

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T1 - Stimuli-Responsive B/N Lewis Pairs Based on the Modulation of B-N Bond Strength

AU - Hou, Qinggao

AU - Liu, Lijie

AU - Mellerup, Soren K.

AU - Wang, Nan

AU - Peng, Tai

AU - Chen, Pangkuan

AU - Wang, Suning

PY - 2018/10/19

Y1 - 2018/10/19

N2 - A series of robust organoboranes with electronically tunable functionality of B/N Lewis pairs has been achieved. These compounds feature a B/N-containing core in which the interactions between the B and N atoms are modulated as a result of the structural flexibility of the nonconjugated backbone. Examination of the substituent effects of the Lewis base moiety reveals that bulky or aryl substituents favor the dynamic switching of the B-N bond in response to external stimuli, such as heat or mechanical pressure, leading to emission color modulation. This work provides a new, straightforward proof of concept toward new switchable materials design based on tunable electronic interactions.

AB - A series of robust organoboranes with electronically tunable functionality of B/N Lewis pairs has been achieved. These compounds feature a B/N-containing core in which the interactions between the B and N atoms are modulated as a result of the structural flexibility of the nonconjugated backbone. Examination of the substituent effects of the Lewis base moiety reveals that bulky or aryl substituents favor the dynamic switching of the B-N bond in response to external stimuli, such as heat or mechanical pressure, leading to emission color modulation. This work provides a new, straightforward proof of concept toward new switchable materials design based on tunable electronic interactions.

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AN - SCOPUS:85054409897

SN - 1523-7060

VL - 20

SP - 6467

EP - 6470

JO - Organic Letters

JF - Organic Letters

IS - 20

ER -

Stimuli-Responsive B/N Lewis Pairs Based on the Modulation of B-N Bond Strength

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