In Situ Photoisomerization of an Azobenzene-Based Triple Helicate with a Prolonged Thermal Relaxation Time

Jiajia Zhu; Xiao Wen Sun; Xintong Yang; Shu Na Yu; Lin Liang; Ya Zhi Chen; Xiaoyan Zheng; Meng Yu; Li Yan; Juan Tang; Wei Zhao; Xiao Juan Yang; Biao Wu

doi:10.1002/anie.202314510

In Situ Photoisomerization of an Azobenzene-Based Triple Helicate with a Prolonged Thermal Relaxation Time

Jiajia Zhu, Xiao Wen Sun, Xintong Yang, Shu Na Yu, Lin Liang, Ya Zhi Chen, Xiaoyan Zheng, Meng Yu, Li Yan, Juan Tang, Wei Zhao^*, Xiao Juan Yang, Biao Wu^*

^*Corresponding author for this work

School of Chemistry and Chemical Engineering

Beijing Institute of Technology

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

6 Citations (Scopus)

Abstract

The phosphate-coordination triple helicates A₂L₃ (A=anion) with azobenzene-spaced bis-bis(urea) ligands (L) have proven to undergo a rare in situ photoisomerization (without disassembly of the structure) rather than the typically known, stepwise “disassembly-isomerization-reassembly” process. This is enabled by the structural self-adaptability of the “aniono” assembly arising from multiple relatively weak and flexible hydrogen bonds between the phosphate anion and bis(urea) units. Notably, the Z→E thermal relaxation rate of the isomerized azobenzene unit is significantly decreased (up to 20-fold) for the triple helicates compared to the free ligands. Moreover, the binding of chiral guest cations inside the cavity of the Z-isomerized triple helicate can induce optically pure diastereomers, thus demonstrating a new strategy for making light-activated chiroptical materials.

Original language	English
Article number	e202314510
Journal	Angewandte Chemie - International Edition
Volume	62
Issue number	51
DOIs	https://doi.org/10.1002/anie.202314510
Publication status	Published - 18 Dec 2023

Keywords

Anion Coordination
Azobenzene
Photoswitches
Thermal Relaxation
Triple Helicates

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title = "In Situ Photoisomerization of an Azobenzene-Based Triple Helicate with a Prolonged Thermal Relaxation Time",

abstract = "The phosphate-coordination triple helicates A2L3 (A=anion) with azobenzene-spaced bis-bis(urea) ligands (L) have proven to undergo a rare in situ photoisomerization (without disassembly of the structure) rather than the typically known, stepwise “disassembly-isomerization-reassembly” process. This is enabled by the structural self-adaptability of the “aniono” assembly arising from multiple relatively weak and flexible hydrogen bonds between the phosphate anion and bis(urea) units. Notably, the Z→E thermal relaxation rate of the isomerized azobenzene unit is significantly decreased (up to 20-fold) for the triple helicates compared to the free ligands. Moreover, the binding of chiral guest cations inside the cavity of the Z-isomerized triple helicate can induce optically pure diastereomers, thus demonstrating a new strategy for making light-activated chiroptical materials.",

keywords = "Anion Coordination, Azobenzene, Photoswitches, Thermal Relaxation, Triple Helicates",

author = "Jiajia Zhu and Sun, {Xiao Wen} and Xintong Yang and Yu, {Shu Na} and Lin Liang and Chen, {Ya Zhi} and Xiaoyan Zheng and Meng Yu and Li Yan and Juan Tang and Wei Zhao and Yang, {Xiao Juan} and Biao Wu",

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year = "2023",

month = dec,

day = "18",

doi = "10.1002/anie.202314510",

language = "English",

volume = "62",

journal = "Angewandte Chemie - International Edition",

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T1 - In Situ Photoisomerization of an Azobenzene-Based Triple Helicate with a Prolonged Thermal Relaxation Time

AU - Zhu, Jiajia

AU - Sun, Xiao Wen

AU - Yang, Xintong

AU - Yu, Shu Na

AU - Liang, Lin

AU - Chen, Ya Zhi

AU - Zheng, Xiaoyan

AU - Yu, Meng

AU - Yan, Li

AU - Tang, Juan

AU - Zhao, Wei

AU - Yang, Xiao Juan

AU - Wu, Biao

PY - 2023/12/18

Y1 - 2023/12/18

N2 - The phosphate-coordination triple helicates A2L3 (A=anion) with azobenzene-spaced bis-bis(urea) ligands (L) have proven to undergo a rare in situ photoisomerization (without disassembly of the structure) rather than the typically known, stepwise “disassembly-isomerization-reassembly” process. This is enabled by the structural self-adaptability of the “aniono” assembly arising from multiple relatively weak and flexible hydrogen bonds between the phosphate anion and bis(urea) units. Notably, the Z→E thermal relaxation rate of the isomerized azobenzene unit is significantly decreased (up to 20-fold) for the triple helicates compared to the free ligands. Moreover, the binding of chiral guest cations inside the cavity of the Z-isomerized triple helicate can induce optically pure diastereomers, thus demonstrating a new strategy for making light-activated chiroptical materials.

AB - The phosphate-coordination triple helicates A2L3 (A=anion) with azobenzene-spaced bis-bis(urea) ligands (L) have proven to undergo a rare in situ photoisomerization (without disassembly of the structure) rather than the typically known, stepwise “disassembly-isomerization-reassembly” process. This is enabled by the structural self-adaptability of the “aniono” assembly arising from multiple relatively weak and flexible hydrogen bonds between the phosphate anion and bis(urea) units. Notably, the Z→E thermal relaxation rate of the isomerized azobenzene unit is significantly decreased (up to 20-fold) for the triple helicates compared to the free ligands. Moreover, the binding of chiral guest cations inside the cavity of the Z-isomerized triple helicate can induce optically pure diastereomers, thus demonstrating a new strategy for making light-activated chiroptical materials.

KW - Anion Coordination

KW - Azobenzene

KW - Photoswitches

KW - Thermal Relaxation

KW - Triple Helicates

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U2 - 10.1002/anie.202314510

DO - 10.1002/anie.202314510

M3 - Article

C2 - 37926915

AN - SCOPUS:85177047979

SN - 1433-7851

VL - 62

JO - Angewandte Chemie - International Edition

JF - Angewandte Chemie - International Edition

IS - 51

M1 - e202314510

ER -

In Situ Photoisomerization of an Azobenzene-Based Triple Helicate with a Prolonged Thermal Relaxation Time

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