Controlling Nanoparticle Distance by On-Surface DNA-Origami Folding.
AuNPs dimer
DNA origami
distance control
on‐surface folding
surface enhanced Raman spectroscopy
Journal
Small (Weinheim an der Bergstrasse, Germany)
ISSN: 1613-6829
Titre abrégé: Small
Pays: Germany
ID NLM: 101235338
Informations de publication
Date de publication:
18 Apr 2024
18 Apr 2024
Historique:
revised:
11
03
2024
received:
27
11
2023
medline:
18
4
2024
pubmed:
18
4
2024
entrez:
18
4
2024
Statut:
aheadofprint
Résumé
DNA origami is a flexible platform for the precise organization of nano-objects, enabling numerous applications from biomedicine to nano-photonics. Its huge potential stems from its high flexibility that allows customized structures to meet specific requirements. The ability to generate diverse final structures from a common base by folding significantly enhances design variety and is regularly occurring in liquid. This study describes a novel approach that combines top-down lithography with bottom-up DNA origami techniques to control folding of the DNA origami with the adsorption on pre-patterned surfaces. Using this approach, tunable plasmonic dimer nano-arrays are fabricated on a silicon surface. This involves employing electron beam lithography to create adsorption sites on the surface and utilizing self-organized adsorption of DNA origami functionalized with two gold nanoparticles (AuNPs). The desired folding of the DNA origami helices can be controlled by the size and shape of the adsorption sites. This approach can for example be used to tune the center-to-center distance of the AuNPs dimers on the origami template. To demonstrate this technique's efficiency, the Raman signal of dye molecules (carboxy tetramethylrhodamine, TAMRA) coated on the AuNPs surface are investigated. These findings highlight the potential of tunable DNA origami-based plasmonic nanostructures for many applications.
Identifiants
pubmed: 38634220
doi: 10.1002/smll.202310955
doi:
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Pagination
e2310955Subventions
Organisme : State of Lower Saxony under the QuanTec project
ID : 76251 (ZN 3820)
Organisme : Deutsche Forschungsgemeinschaft
ID : 390837967
Informations de copyright
© 2024 The Authors. Small published by Wiley‐VCH GmbH.
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