Dynamic Self‐Assembly of Homogenous Microcyclic Structures Controlled by a Silver‐Coated Nanopore |
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Authors: | Rui Gao Yao Lin Yi‐Lun Ying Xiao‐Yuan Liu Xin Shi Yong‐Xu Hu Yi‐Tao Long He Tian |
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Affiliation: | Key Laboratory for Advanced Materials and School of Chemistry and Molecular Engineering, East China University of Science and Technology, Shanghai, P. R. China |
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Abstract: | The self‐assembly of nanoparticles is a challenging process for organizing precise structures with complicated and ingenious structures. In the past decades, a simple, high‐efficiency, and reproducible self‐assembly method from nanoscale to microscale has been pursued because of the promising and extensive application prospects in bioanalysis, catalysis, photonics, and energy storage. However, microscale self‐assembly still faces big challenges including improving the stability and homogeneity as well as pursuing new assembly methods and templates for the uniform self‐assembly. To address these obstacles, here, a novel silver‐coated nanopore is developed which serves as a template for electrochemically generating microcyclic structures of gold nanoparticles at micrometers with highly homogenous size and remarkable reproducibility. Nanopore‐induced microcyclic structures are further applied to visualize the diffusion profile of ionic flux. Based on this novel strategy, a nanopore could potentially facilitate the delivery of assembled structures for many practical applications including drug delivery, cellular detection, catalysis, and plasmonic sensing. |
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Keywords: | electrochemistry microcyclic structures microscale self‐assembly nanopores |
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