Spatiotemporally controlled emergence of nanoparticle microvortices under electric field

Qi Pan; Xijian Lin; Shiyuan Wei; Jinghong Su; Hansen Zhao; Xiaojie Duan; Guoqing Hu; Yan He

doi:10.1002/agt2.450

Aggregate (Apr 2024)

Spatiotemporally controlled emergence of nanoparticle microvortices under electric field

Qi Pan,
Xijian Lin,
Shiyuan Wei,
Jinghong Su,
Hansen Zhao,
Xiaojie Duan,
Guoqing Hu,
Yan He

Affiliations

Qi Pan: Department of ChemistryKey Laboratory of Bioorganic Phosphorus Chemistry and Chemical Biology (Ministry of Education)Tsinghua UniversityBeijingChina
Xijian Lin: Department of ChemistryKey Laboratory of Bioorganic Phosphorus Chemistry and Chemical Biology (Ministry of Education)Tsinghua UniversityBeijingChina
Shiyuan Wei: Department of Biomedical EngineeringCollege of Future TechnologyPeking UniversityBeijingChina
Jinghong Su: The State Key Laboratory of Nonlinear Mechanics, Institute of MechanicsChinese Academy of SciencesBeijingChina
Hansen Zhao: Department of ChemistryKey Laboratory of Bioorganic Phosphorus Chemistry and Chemical Biology (Ministry of Education)Tsinghua UniversityBeijingChina
Xiaojie Duan: Department of Biomedical EngineeringCollege of Future TechnologyPeking UniversityBeijingChina
Guoqing Hu: Department of Engineering Mechanics, State Key Laboratory of Fluid Power and Mechatronic SystemsZhejiang UniversityHangzhouChina
Yan He: Department of ChemistryKey Laboratory of Bioorganic Phosphorus Chemistry and Chemical Biology (Ministry of Education)Tsinghua UniversityBeijingChina

DOI: https://doi.org/10.1002/agt2.450
Journal volume & issue: Vol. 5, no. 2
pp. n/a – n/a

Abstract

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Abstract Controlled assembly of nanoparticles (NPs) has garnered much interest over the past two decades. Beyond established techniques, new methods utilizing local short‐range or large‐scale long‐range interactions remain to be explored to achieve diverse micro‐ and nanoscale structures. Here, we report the controlled emergence of vortex‐pair arrays within monodispersed gold nanorods by applying a direct current electric field across a pair of sawtooth electrodes. By employing in situ darkfield microscopy and particle collective analysis, we elucidate the mechanism behind the formation and stabilization of the NP vortices, attributing it to the combined effects of the electrode shape, high NP density, and high solution viscosity. We further explore the controllability of the vortex‐pair arrays and obtain multiple complex vortice patterns. Our findings will facilitate the investigation of efficient and controlled dynamic assembly of NPs under external fields and help manufacture next‐generation optoelectronic functional materials.

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ISSN: 2692-4560 (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Science: Chemistry; Science: Biology (General)
Website: https://onlinelibrary.wiley.com/journal/26924560

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