Brilliant thermochromic photonic liquid dominated by electrostatic repulsion

IF 8.2 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Siyi Yu , Dekun Ma , Chenze Qi , Dongpeng Yang , Shaoming Huang
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Abstract

It is challenging for traditional methods to generate liquid photonic crystals (LPCs) with brilliant colors and clear self-assembly mechanisms, owing to the major limitations in solvent choice and undesired components. Here, novel LPCs with widely tunable solvents and desired components have been successfully fabricated by non-close-assembling silica particles from silica/ethanol solution into target solvents through alternative centrifugation and sonication. The as-fabricated LPCs exhibit 1) brilliant structural colors from high reflectance (maximal: 91 %) by using solvents with low refractive indexes, much higher than those (20–40 %) of traditional LPCs; 2) tunable color saturation with high precision, difficult for conventional LPCs; and 3) a clearer working mechanism: electrostatic repulsion rather than other interactions majorly dominating the non-close-packing of silica particles in solvents. Additionally, a new type of sensitive thermochromic display unit with thermo-switchable on-off structural colors has been prepared by constructing silica/bi-solvents LPCs. This work not only paves a new way for achieving thermal-responsive LPCs but also offers a new perspective for understanding colloidal assembly.

Abstract Image

以静电排斥为主导的绚丽热致变色光子液体
由于溶剂选择和不想要的成分的主要限制,传统方法很难生成具有绚丽色彩和清晰自组装机制的液态光子晶体(LPCs)。在此,我们通过离心和超声等替代方法,将二氧化硅/乙醇溶液中的非紧密组装二氧化硅颗粒放入目标溶剂中,成功制备出了具有广泛可调溶剂和所需成分的新型液态光子晶体。制备出的 LPC 具有以下特点:1)通过使用低折射率(远高于传统 LPC 的折射率(20-40%))的溶剂,实现了高反射率(最大值:91%)的绚丽结构色彩;2)具有传统 LPC 难以达到的高精度可调色彩饱和度;3)工作机制更加清晰:静电排斥而非其他相互作用是二氧化硅颗粒在溶剂中非紧密堆积的主要原因。此外,通过构建二氧化硅/双溶剂 LPC,制备出了一种新型灵敏的热致变色显示单元,其结构颜色具有热开关特性。这项工作不仅为实现热响应 LPC 铺平了新的道路,而且为理解胶体组装提供了新的视角。
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来源期刊
CiteScore
11.30
自引率
3.90%
发文量
130
审稿时长
31 days
期刊介绍: Materials Today Nano is a multidisciplinary journal dedicated to nanoscience and nanotechnology. The journal aims to showcase the latest advances in nanoscience and provide a platform for discussing new concepts and applications. With rigorous peer review, rapid decisions, and high visibility, Materials Today Nano offers authors the opportunity to publish comprehensive articles, short communications, and reviews on a wide range of topics in nanoscience. The editors welcome comprehensive articles, short communications and reviews on topics including but not limited to: Nanoscale synthesis and assembly Nanoscale characterization Nanoscale fabrication Nanoelectronics and molecular electronics Nanomedicine Nanomechanics Nanosensors Nanophotonics Nanocomposites
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