Tuning the Functionality of Self-Assembled 2D Platelets in the Third Dimension

Tianlai Xia; Zaizai Tong; Yujie Xie; Maria C Arno; Shixing Lei; Laihui Xiao; Julia Y Rho; Calum T J Ferguson; Ian Manners; Andrew P Dove; Rachel K O'Reilly

doi:10.1021/jacs.3c08770

Tuning the Functionality of Self-Assembled 2D Platelets in the Third Dimension

Tianlai Xia, Zaizai Tong, Yujie Xie, Maria C Arno, Shixing Lei, Laihui Xiao, Julia Y Rho, Calum T J Ferguson, Ian Manners, Andrew P Dove^*, Rachel K O'Reilly^*

^*Corresponding author for this work

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

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Abstract

The decoration of 2D nanostructures using heteroepitaxial growth is of great importance to achieve functional assemblies employed in biomedical, electrical, and mechanical applications. Although the functionalization of polymers before self-assembly has been investigated, the exploration of direct surface modification in the third dimension from 2D nanostructures has, to date, been unexplored. Here, we used living crystallization-driven self-assembly to fabricate poly(ε-caprolactone)-based 2D platelets with controlled size. Importantly, surface modification of the platelets in the third dimension was achieved by using functional monomers and light-induced polymerization. This method allows us to selectively regulate the height and fluorescence properties of the nanostructures. Using this approach, we gained unprecedented spatial control over the surface functionality in the specific region of complex 2D platelets.

Original language	English
Pages (from-to)	25274-25282
Number of pages	9
Journal	Journal of the American Chemical Society
Volume	145
Issue number	46
Early online date	8 Nov 2023
DOIs	https://doi.org/10.1021/jacs.3c08770
Publication status	E-pub ahead of print - 8 Nov 2023

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10.1021/jacs.3c08770Licence: Creative Commons: Attribution (CC BY)

XiaT2023TuningFinal published version, 8.68 MBLicence: Creative Commons: Attribution (CC BY)

Photo-controlled living radical polymerisation in cellular environment
Arno, M. C.
The Royal Society
1/03/22 → 20/06/23
Project: Research Councils

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title = "Tuning the Functionality of Self-Assembled 2D Platelets in the Third Dimension",

abstract = "The decoration of 2D nanostructures using heteroepitaxial growth is of great importance to achieve functional assemblies employed in biomedical, electrical, and mechanical applications. Although the functionalization of polymers before self-assembly has been investigated, the exploration of direct surface modification in the third dimension from 2D nanostructures has, to date, been unexplored. Here, we used living crystallization-driven self-assembly to fabricate poly(ε-caprolactone)-based 2D platelets with controlled size. Importantly, surface modification of the platelets in the third dimension was achieved by using functional monomers and light-induced polymerization. This method allows us to selectively regulate the height and fluorescence properties of the nanostructures. Using this approach, we gained unprecedented spatial control over the surface functionality in the specific region of complex 2D platelets.",

author = "Tianlai Xia and Zaizai Tong and Yujie Xie and Arno, {Maria C} and Shixing Lei and Laihui Xiao and Rho, {Julia Y} and Ferguson, {Calum T J} and Ian Manners and Dove, {Andrew P} and O'Reilly, {Rachel K}",

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T1 - Tuning the Functionality of Self-Assembled 2D Platelets in the Third Dimension

AU - Xia, Tianlai

AU - Tong, Zaizai

AU - Xie, Yujie

AU - Arno, Maria C

AU - Lei, Shixing

AU - Xiao, Laihui

AU - Rho, Julia Y

AU - Ferguson, Calum T J

AU - Manners, Ian

AU - Dove, Andrew P

AU - O'Reilly, Rachel K

PY - 2023/11/8

Y1 - 2023/11/8

N2 - The decoration of 2D nanostructures using heteroepitaxial growth is of great importance to achieve functional assemblies employed in biomedical, electrical, and mechanical applications. Although the functionalization of polymers before self-assembly has been investigated, the exploration of direct surface modification in the third dimension from 2D nanostructures has, to date, been unexplored. Here, we used living crystallization-driven self-assembly to fabricate poly(ε-caprolactone)-based 2D platelets with controlled size. Importantly, surface modification of the platelets in the third dimension was achieved by using functional monomers and light-induced polymerization. This method allows us to selectively regulate the height and fluorescence properties of the nanostructures. Using this approach, we gained unprecedented spatial control over the surface functionality in the specific region of complex 2D platelets.

AB - The decoration of 2D nanostructures using heteroepitaxial growth is of great importance to achieve functional assemblies employed in biomedical, electrical, and mechanical applications. Although the functionalization of polymers before self-assembly has been investigated, the exploration of direct surface modification in the third dimension from 2D nanostructures has, to date, been unexplored. Here, we used living crystallization-driven self-assembly to fabricate poly(ε-caprolactone)-based 2D platelets with controlled size. Importantly, surface modification of the platelets in the third dimension was achieved by using functional monomers and light-induced polymerization. This method allows us to selectively regulate the height and fluorescence properties of the nanostructures. Using this approach, we gained unprecedented spatial control over the surface functionality in the specific region of complex 2D platelets.

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DO - 10.1021/jacs.3c08770

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Tuning the Functionality of Self-Assembled 2D Platelets in the Third Dimension

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Photo-controlled living radical polymerisation in cellular environment

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