Gold-nanoparticle-mediated jigsaw-puzzle-like assembly of supersized plasmonic DNA origami

Guangbao Yao; Jiang Li; Jie Chao; Hao Pei; Huajie Liu; Yun Zhao; Jiye Shi; Qing Huang; Lianhui Wang; Wei Huang; Chunhai Fan

doi:10.1002/anie.201410895

Gold-nanoparticle-mediated jigsaw-puzzle-like assembly of supersized plasmonic DNA origami

Guangbao Yao, Jiang Li, Jie Chao, Hao Pei, Huajie Liu, Yun Zhao, Jiye Shi, Qing Huang, Lianhui Wang, Wei Huang, Chunhai Fan

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

105 Scopus citations

Abstract

DNA origami has rapidly emerged as a powerful and programmable method to construct functional nanostructures. However, the size limitation of approximately 100 nm in classic DNA origami hampers its plasmonic applications. Herein, we report a jigsaw-puzzle-like assembly strategy mediated by gold nanoparticles (AuNPs) to break the size limitation of DNA origami. We demonstrated that oligonucleotide-functionalized AuNPs function as universal joint units for the one-pot assembly of parent DNA origami of triangular shape to form sub-microscale super-origami nanostructures. AuNPs anchored at predefined positions of the super-origami exhibited strong interparticle plasmonic coupling. This AuNP-mediated strategy offers new opportunities to drive macroscopic self-assembly and to fabricate well-defined nanophotonic materials and devices.

Original language	English
Pages (from-to)	2966-2969
Number of pages	4
Journal	Angewandte Chemie - International Edition
Volume	54
Issue number	10
DOIs	https://doi.org/10.1002/anie.201410895
State	Published - 2 Mar 2015
Externally published	Yes

Keywords

DNA origami
Gold
Nanoparticles
Nanostructures
Self-assembly

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10.1002/anie.201410895

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title = "Gold-nanoparticle-mediated jigsaw-puzzle-like assembly of supersized plasmonic DNA origami",

abstract = "DNA origami has rapidly emerged as a powerful and programmable method to construct functional nanostructures. However, the size limitation of approximately 100 nm in classic DNA origami hampers its plasmonic applications. Herein, we report a jigsaw-puzzle-like assembly strategy mediated by gold nanoparticles (AuNPs) to break the size limitation of DNA origami. We demonstrated that oligonucleotide-functionalized AuNPs function as universal joint units for the one-pot assembly of parent DNA origami of triangular shape to form sub-microscale super-origami nanostructures. AuNPs anchored at predefined positions of the super-origami exhibited strong interparticle plasmonic coupling. This AuNP-mediated strategy offers new opportunities to drive macroscopic self-assembly and to fabricate well-defined nanophotonic materials and devices.",

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author = "Guangbao Yao and Jiang Li and Jie Chao and Hao Pei and Huajie Liu and Yun Zhao and Jiye Shi and Qing Huang and Lianhui Wang and Wei Huang and Chunhai Fan",

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doi = "10.1002/anie.201410895",

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AU - Yao, Guangbao

AU - Li, Jiang

AU - Chao, Jie

AU - Pei, Hao

AU - Liu, Huajie

AU - Zhao, Yun

AU - Shi, Jiye

AU - Huang, Qing

AU - Wang, Lianhui

AU - Huang, Wei

AU - Fan, Chunhai

PY - 2015/3/2

Y1 - 2015/3/2

N2 - DNA origami has rapidly emerged as a powerful and programmable method to construct functional nanostructures. However, the size limitation of approximately 100 nm in classic DNA origami hampers its plasmonic applications. Herein, we report a jigsaw-puzzle-like assembly strategy mediated by gold nanoparticles (AuNPs) to break the size limitation of DNA origami. We demonstrated that oligonucleotide-functionalized AuNPs function as universal joint units for the one-pot assembly of parent DNA origami of triangular shape to form sub-microscale super-origami nanostructures. AuNPs anchored at predefined positions of the super-origami exhibited strong interparticle plasmonic coupling. This AuNP-mediated strategy offers new opportunities to drive macroscopic self-assembly and to fabricate well-defined nanophotonic materials and devices.

AB - DNA origami has rapidly emerged as a powerful and programmable method to construct functional nanostructures. However, the size limitation of approximately 100 nm in classic DNA origami hampers its plasmonic applications. Herein, we report a jigsaw-puzzle-like assembly strategy mediated by gold nanoparticles (AuNPs) to break the size limitation of DNA origami. We demonstrated that oligonucleotide-functionalized AuNPs function as universal joint units for the one-pot assembly of parent DNA origami of triangular shape to form sub-microscale super-origami nanostructures. AuNPs anchored at predefined positions of the super-origami exhibited strong interparticle plasmonic coupling. This AuNP-mediated strategy offers new opportunities to drive macroscopic self-assembly and to fabricate well-defined nanophotonic materials and devices.

KW - DNA origami

KW - Gold

KW - Nanoparticles

KW - Nanostructures

KW - Self-assembly

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ER -

Gold-nanoparticle-mediated jigsaw-puzzle-like assembly of supersized plasmonic DNA origami

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Keywords

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