Modulating Orientational Order to Organize Polyhedral Nanoparticles into Plastic Crystals and Uniform Metacrystals

Yih Hong Lee; Wenxiong Shi; Yijie Yang; Ya Chuan Kao; Hiang Kwee Lee; Rongrong Chu; Yee Ling Pang; Chee Leng Lay; Shuzhou Li; Xing Yi Ling

doi:10.1002/anie.202009941

Modulating Orientational Order to Organize Polyhedral Nanoparticles into Plastic Crystals and Uniform Metacrystals

Yih Hong Lee, Wenxiong Shi, Yijie Yang, Ya Chuan Kao, Hiang Kwee Lee, Rongrong Chu, Yee Ling Pang, Chee Leng Lay, Shuzhou Li, Xing Yi Ling^*

^*Corresponding author for this work

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

14 Citations (Scopus)

Abstract

In nanoparticle self-assembly, the current lack of strategy to modulate orientational order creates challenges in isolating large-area plastic crystals. Here, we achieve two orientationally distinct supercrystals using one nanoparticle shape, including plastic crystals and uniform metacrystals. Our approach integrates multi-faceted Archimedean polyhedra with molecular-level surface polymeric interactions to tune nanoparticle orientational order during self-assembly. Experiments and simulations show that coiled surface polymer chains limit interparticle interactions, creating various geometrical configurations among Archimedean polyhedra to form plastic crystals. In contrast, brush-like polymer chains enable molecular interdigitation between neighboring particles, favoring consistent particle configurations and result in uniform metacrystals. Our strategy enhances supercrystal diversity for polyhedra comprising multiple nondegenerate facets.

Original language	English
Pages (from-to)	21183-21189
Number of pages	7
Journal	Angewandte Chemie - International Edition
Volume	59
Issue number	47
DOIs	https://doi.org/10.1002/anie.202009941
Publication status	Published - Nov 16 2020
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2020 Wiley-VCH GmbH

ASJC Scopus Subject Areas

Catalysis
General Chemistry

Keywords

nanoparticle self-assembly
nanoscale surface chemistry
orientational order
plastic crystals
uniform metacrystals

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10.1002/anie.202009941

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title = "Modulating Orientational Order to Organize Polyhedral Nanoparticles into Plastic Crystals and Uniform Metacrystals",

abstract = "In nanoparticle self-assembly, the current lack of strategy to modulate orientational order creates challenges in isolating large-area plastic crystals. Here, we achieve two orientationally distinct supercrystals using one nanoparticle shape, including plastic crystals and uniform metacrystals. Our approach integrates multi-faceted Archimedean polyhedra with molecular-level surface polymeric interactions to tune nanoparticle orientational order during self-assembly. Experiments and simulations show that coiled surface polymer chains limit interparticle interactions, creating various geometrical configurations among Archimedean polyhedra to form plastic crystals. In contrast, brush-like polymer chains enable molecular interdigitation between neighboring particles, favoring consistent particle configurations and result in uniform metacrystals. Our strategy enhances supercrystal diversity for polyhedra comprising multiple nondegenerate facets.",

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author = "Lee, {Yih Hong} and Wenxiong Shi and Yijie Yang and Kao, {Ya Chuan} and Lee, {Hiang Kwee} and Rongrong Chu and Pang, {Yee Ling} and Lay, {Chee Leng} and Shuzhou Li and Ling, {Xing Yi}",

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AU - Lee, Yih Hong

AU - Shi, Wenxiong

AU - Yang, Yijie

AU - Kao, Ya Chuan

AU - Lee, Hiang Kwee

AU - Chu, Rongrong

AU - Pang, Yee Ling

AU - Lay, Chee Leng

AU - Li, Shuzhou

AU - Ling, Xing Yi

PY - 2020/11/16

Y1 - 2020/11/16

N2 - In nanoparticle self-assembly, the current lack of strategy to modulate orientational order creates challenges in isolating large-area plastic crystals. Here, we achieve two orientationally distinct supercrystals using one nanoparticle shape, including plastic crystals and uniform metacrystals. Our approach integrates multi-faceted Archimedean polyhedra with molecular-level surface polymeric interactions to tune nanoparticle orientational order during self-assembly. Experiments and simulations show that coiled surface polymer chains limit interparticle interactions, creating various geometrical configurations among Archimedean polyhedra to form plastic crystals. In contrast, brush-like polymer chains enable molecular interdigitation between neighboring particles, favoring consistent particle configurations and result in uniform metacrystals. Our strategy enhances supercrystal diversity for polyhedra comprising multiple nondegenerate facets.

AB - In nanoparticle self-assembly, the current lack of strategy to modulate orientational order creates challenges in isolating large-area plastic crystals. Here, we achieve two orientationally distinct supercrystals using one nanoparticle shape, including plastic crystals and uniform metacrystals. Our approach integrates multi-faceted Archimedean polyhedra with molecular-level surface polymeric interactions to tune nanoparticle orientational order during self-assembly. Experiments and simulations show that coiled surface polymer chains limit interparticle interactions, creating various geometrical configurations among Archimedean polyhedra to form plastic crystals. In contrast, brush-like polymer chains enable molecular interdigitation between neighboring particles, favoring consistent particle configurations and result in uniform metacrystals. Our strategy enhances supercrystal diversity for polyhedra comprising multiple nondegenerate facets.

KW - nanoparticle self-assembly

KW - nanoscale surface chemistry

KW - orientational order

KW - plastic crystals

KW - uniform metacrystals

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Modulating Orientational Order to Organize Polyhedral Nanoparticles into Plastic Crystals and Uniform Metacrystals

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

Access to Document

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