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Spiral Patterning of Au Nanoparticles on Au Nanorod Surface to Form Chiral AuNR@AuNP Helical Superstructures Templated by DNA Origami

Plasmonic motifs with precise surface recognition sites are crucial for assembling defined nanostructures with novel functionalities and properties. In this work, a unique and effective strategy is successfully developed to pattern DNA recognition sites in a helical arrangement around a gold nanorod...

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Bibliographic Details
Published in:Advanced materials (Weinheim) 2017-04, Vol.29 (16), p.n/a
Main Authors: Shen, Chenqi, Lan, Xiang, Zhu, Chenggan, Zhang, Wei, Wang, Leyu, Wang, Qiangbin
Format: Article
Language:English
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Summary:Plasmonic motifs with precise surface recognition sites are crucial for assembling defined nanostructures with novel functionalities and properties. In this work, a unique and effective strategy is successfully developed to pattern DNA recognition sites in a helical arrangement around a gold nanorod (AuNR), and a new set of heterogeneous AuNR@AuNP plasmonic helices is fabricated by attaching complementary‐DNA‐modified gold nanoparticles (AuNPs) to the predesigned sites on the AuNR surface. AuNR is first assembled to one side of a bifacial rectangular DNA origami, where eight groups of capture strands are selectively patterned on the other side. The subsequently added link strands make the rectangular DNA origami roll up around the AuNR into a tubular shape, therefore giving birth to a chiral patterning of DNA recognition sites on the surface of AuNR. Following the hybridization with the AuNPs capped with the complementary strands to the capture strands on the DNA origami, left‐handed and right‐handed AuNR@AuNP helical superstructures are precisely formed by tuning the pattern of the recognition sites on the AuNR surface. Our strategy of nanoparticle surface patterning innovatively realizes hierarchical self‐assembly of plasmonic superstructures with tunable chiroptical responses, and will certainly broaden the horizon of bottom‐up construction of other functional nanoarchitectures with growing complexity. An effective strategy is developed to pattern DNA recognition sites in a helical arrangement around an AuNR, and a new set of heterogeneous AuNR@AuNP chiral plasmonic superstructures is fabricated by attaching complementary‐DNA‐modified AuNPs to the predesigned sites on the AuNR surface, producing complex chiral plasmonic nanostructures and rich chiroptical activities.
ISSN:0935-9648
1521-4095
DOI:10.1002/adma.201606533