Structural Color Enhancement through Synchronizing Natural Convection and Marangoni Flow in Pendant Drops

Structural color, renowned for its enduring vibrancy, has been extensively developed and applied in the fields of display and anticounterfeiting. However, its limitations in brightness and saturation hinder further application in these areas. Herein, we propose a pendant evaporation self-assembly me...

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Published in:ACS applied materials & interfaces 2024-07, Vol.16 (28), p.37318-37327
Main Authors: Ge, Kongyu, Gao, Yifan, Yi, Hongyu, Li, Zhan, Hu, Shaowei, Ji, Hongjun, Li, Mingyu, Feng, Huanhuan
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Surfaces, Interfaces, and Applications
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container_issue 28
container_start_page 37318
container_title ACS applied materials & interfaces
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creator Ge, Kongyu
Gao, Yifan
Yi, Hongyu
Li, Zhan
Hu, Shaowei
Ji, Hongjun
Li, Mingyu
Feng, Huanhuan
description Structural color, renowned for its enduring vibrancy, has been extensively developed and applied in the fields of display and anticounterfeiting. However, its limitations in brightness and saturation hinder further application in these areas. Herein, we propose a pendant evaporation self-assembly method to address these challenges simultaneously. By leveraging natural convection and Marangoni flow synchronization, the self-assembly process enhances the dynamics and duration of colloidal nanoparticles, thereby enhancing the orderliness of colloidal photonic crystals. On average, this technique boosts the brightness of structural color by 20% and its saturation by 35%. Moreover, pendant evaporation self-assembly is simple and convenient to operate, making it suitable for industrial production. We anticipate that its adoption will remarkably advance the industrialization of structural color, facilitating its engineering applications across various fields, such as display technology and anticounterfeiting identification.
doi_str_mv 10.1021/acsami.4c07513
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subjects Surfaces, Interfaces, and Applications
title Structural Color Enhancement through Synchronizing Natural Convection and Marangoni Flow in Pendant Drops
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