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

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105 引用（Scopus）

摘要

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.

源语言	英语
页（从-至）	2966-2969
页数	4
期刊	Angewandte Chemie - International Edition
卷	54
期	10
DOI	https://doi.org/10.1002/anie.201410895
出版状态	已出版 - 2 3月 2015
已对外发布	是

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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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T1 - Gold-nanoparticle-mediated jigsaw-puzzle-like assembly of supersized plasmonic DNA origami

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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JO - Angewandte Chemie - International Edition

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

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