Transfer of Two-Dimensional Oligonucleotide Patterns onto Stereocontrolled Plasmonic Nanostructures through DNA-Origami-Based Nanoimprinting Lithography

Yinan Zhang; Jie Chao; Huajie Liu; Fei Wang; Shao Su; Bing Liu; Lan Zhang; Jiye Shi; Lihua Wang; Wei Huang; Lianhui Wang; Chunhai Fan

doi:10.1002/anie.201512022

Transfer of Two-Dimensional Oligonucleotide Patterns onto Stereocontrolled Plasmonic Nanostructures through DNA-Origami-Based Nanoimprinting Lithography

Yinan Zhang, Jie Chao, Huajie Liu, Fei Wang, Shao Su, Bing Liu, Lan Zhang, Jiye Shi, Lihua Wang, Wei Huang, Lianhui Wang, Chunhai Fan

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

85 Scopus citations

Abstract

The precise functionalization of self-assembled nanostructures with spatial and stereocontrol is a major objective of nanotechnology and holds great promise for many applications. Herein, the nanoscale addressability of DNA origami was exploited to develop a precise copy-machine-like platform that can transfer two-dimensional oligonucleotide patterns onto the surface of gold nanoparticles (AuNPs) through a deliberately designed toehold-initiated DNA displacement reaction. This strategy of DNA-origami-based nanoimprinting lithography (DONIL) demonstrates high precision in controlling the valence and valence angles of AuNPs. These DNA-decorated AuNPs act as precursors in the construction of discrete AuNP clusters with desired chirality.

Original language	English
Pages (from-to)	8036-8040
Number of pages	5
Journal	Angewandte Chemie - International Edition
Volume	55
Issue number	28
DOIs	https://doi.org/10.1002/anie.201512022
State	Published - 4 Jul 2016
Externally published	Yes

Keywords

DNA nanotechnology
gold
nanoimprinting lithography
nanoparticles
self-assembly

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10.1002/anie.201512022

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Zhang, Y., Chao, J., Liu, H., Wang, F., Su, S., Liu, B., Zhang, L., Shi, J., Wang, L., Huang, W., Wang, L., & Fan, C. (2016). Transfer of Two-Dimensional Oligonucleotide Patterns onto Stereocontrolled Plasmonic Nanostructures through DNA-Origami-Based Nanoimprinting Lithography. Angewandte Chemie - International Edition, 55(28), 8036-8040. https://doi.org/10.1002/anie.201512022

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title = "Transfer of Two-Dimensional Oligonucleotide Patterns onto Stereocontrolled Plasmonic Nanostructures through DNA-Origami-Based Nanoimprinting Lithography",

abstract = "The precise functionalization of self-assembled nanostructures with spatial and stereocontrol is a major objective of nanotechnology and holds great promise for many applications. Herein, the nanoscale addressability of DNA origami was exploited to develop a precise copy-machine-like platform that can transfer two-dimensional oligonucleotide patterns onto the surface of gold nanoparticles (AuNPs) through a deliberately designed toehold-initiated DNA displacement reaction. This strategy of DNA-origami-based nanoimprinting lithography (DONIL) demonstrates high precision in controlling the valence and valence angles of AuNPs. These DNA-decorated AuNPs act as precursors in the construction of discrete AuNP clusters with desired chirality.",

keywords = "DNA nanotechnology, gold, nanoimprinting lithography, nanoparticles, self-assembly",

author = "Yinan Zhang and Jie Chao and Huajie Liu and Fei Wang and Shao Su and Bing Liu and Lan Zhang and Jiye Shi and Lihua Wang and Wei Huang and Lianhui Wang and Chunhai Fan",

note = "Publisher Copyright: {\textcopyright} 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim",

year = "2016",

month = jul,

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doi = "10.1002/anie.201512022",

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Zhang, Y, Chao, J, Liu, H, Wang, F, Su, S, Liu, B, Zhang, L, Shi, J, Wang, L, Huang, W, Wang, L & Fan, C 2016, 'Transfer of Two-Dimensional Oligonucleotide Patterns onto Stereocontrolled Plasmonic Nanostructures through DNA-Origami-Based Nanoimprinting Lithography', Angewandte Chemie - International Edition, vol. 55, no. 28, pp. 8036-8040. https://doi.org/10.1002/anie.201512022

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T1 - Transfer of Two-Dimensional Oligonucleotide Patterns onto Stereocontrolled Plasmonic Nanostructures through DNA-Origami-Based Nanoimprinting Lithography

AU - Zhang, Yinan

AU - Chao, Jie

AU - Liu, Huajie

AU - Wang, Fei

AU - Su, Shao

AU - Liu, Bing

AU - Zhang, Lan

AU - Shi, Jiye

AU - Wang, Lihua

AU - Huang, Wei

AU - Wang, Lianhui

AU - Fan, Chunhai

PY - 2016/7/4

Y1 - 2016/7/4

N2 - The precise functionalization of self-assembled nanostructures with spatial and stereocontrol is a major objective of nanotechnology and holds great promise for many applications. Herein, the nanoscale addressability of DNA origami was exploited to develop a precise copy-machine-like platform that can transfer two-dimensional oligonucleotide patterns onto the surface of gold nanoparticles (AuNPs) through a deliberately designed toehold-initiated DNA displacement reaction. This strategy of DNA-origami-based nanoimprinting lithography (DONIL) demonstrates high precision in controlling the valence and valence angles of AuNPs. These DNA-decorated AuNPs act as precursors in the construction of discrete AuNP clusters with desired chirality.

AB - The precise functionalization of self-assembled nanostructures with spatial and stereocontrol is a major objective of nanotechnology and holds great promise for many applications. Herein, the nanoscale addressability of DNA origami was exploited to develop a precise copy-machine-like platform that can transfer two-dimensional oligonucleotide patterns onto the surface of gold nanoparticles (AuNPs) through a deliberately designed toehold-initiated DNA displacement reaction. This strategy of DNA-origami-based nanoimprinting lithography (DONIL) demonstrates high precision in controlling the valence and valence angles of AuNPs. These DNA-decorated AuNPs act as precursors in the construction of discrete AuNP clusters with desired chirality.

KW - DNA nanotechnology

KW - gold

KW - nanoimprinting lithography

KW - nanoparticles

KW - self-assembly

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U2 - 10.1002/anie.201512022

DO - 10.1002/anie.201512022

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AN - SCOPUS:84971492717

SN - 1433-7851

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Transfer of Two-Dimensional Oligonucleotide Patterns onto Stereocontrolled Plasmonic Nanostructures through DNA-Origami-Based Nanoimprinting Lithography

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