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Programmable Assembly of Nano‐architectures through Designing Anisotropic DNA Origami Patches

Mingyang Wang, Lizhi Dai, Jialin Duan, Zhiyuan Ding, Peng Wang, Zheng Li, Hang Xing, Ye Tian

2020Angewandte Chemie International Edition37 citationsDOI

Abstract

Programmable assembly of nanoparticles (NPs) into well-defined architectures has attracted attention because of tailored properties resulting from coupling effects. However, general and precise approaches to control binding modes between NPs remain a challenge owing to the difficulty in manipulating the accurate positions of the functional patches on the surface of NPs. Here, a strategy is developed to encage spherical NPs into pre-designed octahedral DNA origami frames (DOFs) through DNA base-pairings. The DOFs logically define the arrangements of functional patches in three dimensions, owing to the programmability of DNA hybridization, and thus control the binding modes of the caged nanoparticle with designed anisotropy. Applying the node-and-spacer approach that was widely used in crystal engineering to design coordination polymers, patchy NPs could be rationally designed with lower symmetry encoded to assemble a series of nano-architectures with high-order geometries.

Topics & Concepts

DNA origamiNanotechnologyMaterials scienceNanoparticleNano-Coupling (piping)AnisotropyComputer sciencePhysicsNanostructureOpticsMetallurgyComposite materialAdvanced biosensing and bioanalysis techniquesRNA Interference and Gene Delivery
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