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Non‐Lithography Hydrodynamic Printing of Micro/Nanostructures on Curved Surfaces

Meng Su, Feifei Qin, Zeying Zhang, Bingda Chen, Qi Pan, Zhandong Huang, Zheren Cai, Zhipeng Zhao, Xiaotian Hu, Dominique Derome, Jan Carmeliet, Yanlin Song

2020Angewandte Chemie International Edition25 citationsDOI

Abstract

A key issue of micro/nano devices is how to integrate micro/nanostructures with specified chemical components onto various curved surfaces. Hydrodynamic printing of micro/nanostructures on three-dimensional curved surfaces is achieved with a strategy that combines template-induced hydrodynamic printing and self-assembly of nanoparticles (NPs). Non-lithography flexible wall-shaped templates are replicated with microscale features by dicing a trench-shaped silicon wafer. Arising from the capillary pumped function between the template and curved substrates, NPs in the colloidal suspension self-assemble into close-packed micro/nanostructures without a gravity effect. Theoretical analysis with the lattice Boltzmann model reveals the fundamental principles of the hydrodynamic assembly process. Spiral linear structures achieved by two kinds of fluorescent NPs show non-interfering photoluminescence properties, while the waveguide and photoluminescence are confirmed in 3D curved space. The printed multiconstituent micro/nanostructures with single-NP resolution may serve as a general platform for optoelectronics beyond flat surfaces.

Topics & Concepts

LithographyNanotechnologyMaterials scienceNanostructure3D printingOptoelectronicsComposite materialNanofabrication and Lithography TechniquesFluid Dynamics and Thin FilmsNanomaterials and Printing Technologies
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