Precise Self-Assembly of Large Colloidal Silver Nanowires in a Nematic Liquid Crystal Host with Long-Range Order

Precise Self-Assembly of Large Colloidal Silver Nanowires in a Nematic Liquid Crystal Host with Long-Range Order

The self-assembly of colloidal nanoparticles into ordered structures induced by liquid crystals (LCs) shows great promise for innovative electric–optic devices. However, the large size of colloidal nanoparticles is a challenge for realizing highly ordered assemblies. In this work, micrometer-long co...

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Veröffentlicht in:ACS photonics 2024-07, Vol.11 (7), p.2729-2737
Hauptverfasser: Sang, Jingxin, Berteloot, Brecht, Li, Tangwu, Chen, Fangfang, Li, Hongliang, Jacob, Nithin Thomas, Liu, Sunqian, Sun, Jiatong, Zheng, Jihong, Neyts, Kristiaan
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container_end_page 2737
container_issue 7
container_start_page 2729
container_title ACS photonics
container_volume 11
creator Sang, Jingxin
Berteloot, Brecht
Li, Tangwu
Chen, Fangfang
Li, Hongliang
Jacob, Nithin Thomas
Liu, Sunqian
Sun, Jiatong
Zheng, Jihong
Neyts, Kristiaan
description The self-assembly of colloidal nanoparticles into ordered structures induced by liquid crystals (LCs) shows great promise for innovative electric–optic devices. However, the large size of colloidal nanoparticles is a challenge for realizing highly ordered assemblies. In this work, micrometer-long colloidal silver nanowires (AgNWs) are dispersed in a nematic LC host, leading to a nanowire orientation that is orthogonal to the LC director. The colloidal nanowires align inside an LC cell with rubbed alignment layers, achieving an order parameter exceeding 0.9. In addition, self-assembly of colloidal AgNWs in micro domains with different orientations was obtained using photoalignment technology. The alignment of nanowires under the influence of the electric field increased the response speed of the LC devices. This research uncovers the interaction between nanowires and LC molecules, demonstrating the orientational ordering of AgNW colloids in micromulti domains. These findings provide a valuable strategy for designing self-assembled nanomaterials and practical electric–optic devices.
doi_str_mv 10.1021/acsphotonics.4c00564
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