朦胧透明的纤维素纳米晶体薄膜，具有可调的结构颜色。

IF 12.5 1区化学 Q1 CHEMISTRY, APPLIED

Carbohydrate Polymers Pub Date : 2025-01-06 DOI:10.1016/j.carbpol.2025.123240

Zhaolu Wang, Yan Xu

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引用次数: 0

摘要

纤维素纳米晶体（CNCs）是一种强大的生物源纳米材料，用于构建手性光子薄膜。虽然已经使用了各种技术来丰富这种系统的光学性质，但表面粗糙度工程尚未被用来显着改变其光学性质。在这项工作中，通过使用真空过滤辅助自组装，cnc被密集地包装成具有高光学透明度的薄膜。展示了具有工程表面粗糙度的过滤膜纹理印迹手性光子cnc薄膜。同时，手性光子cnc薄膜的光学雾度为99%，透过率为62%，具有宽带传输和可调的可见光谱结构颜色。我们通过实验展示了对其雾霾值的控制，以及这些薄膜用作光学漫射器的潜力，在调节照明中的相关色温方面具有额外的优势。这种简单而强大的技术为构建朦胧透明的cnc薄膜提供了可能性，为开发用于光学扩散应用的生物源纳米材料的手性光子薄膜铺平了道路。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Hazy transparent cellulose nanocrystal-based films with tunable structural colors

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Hazy transparent cellulose nanocrystal-based films with tunable structural colors

Cellulose nanocrystals (CNCs) are powerful biosourced nanomaterials for the construction of chiral photonic films. While various techniques have been used to enrich the optical properties of such systems, surface roughness engineering has yet to be exploited to significantly modify their optical properties. In this work, by using vacuum filtration-assisted self-assembly, CNCs are densely packed into films with high optical transparency. Filtration membrane texture-imprinted chiral photonic CNC-based films with engineered surface roughness are demonstrated. Simultaneously optimized optical haze of 99 % and transmittance of 62 % are achieved in the chiral photonic CNC-based films with broadband transmission and tunable structural colors across the visible spectrum. We show experimentally a control over their haze values and the potential of these films to be used as optical diffusers with added advantages in tuning the correlated color temperature in lighting. This simple and yet powerful technique presents possibilities in constructing hazy transparent CNC-based films, paving the way for the development of chiral photonic films from biosourced nanomaterials for optical diffusion applications.

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来源期刊

Carbohydrate Polymers 化学-高分子科学

CiteScore

22.40

自引率

8.00%

发文量

1286

审稿时长

47 days

期刊介绍： Carbohydrate Polymers stands as a prominent journal in the glycoscience field, dedicated to exploring and harnessing the potential of polysaccharides with applications spanning bioenergy, bioplastics, biomaterials, biorefining, chemistry, drug delivery, food, health, nanotechnology, packaging, paper, pharmaceuticals, medicine, oil recovery, textiles, tissue engineering, wood, and various aspects of glycoscience. The journal emphasizes the central role of well-characterized carbohydrate polymers, highlighting their significance as the primary focus rather than a peripheral topic. Each paper must prominently feature at least one named carbohydrate polymer, evident in both citation and title, with a commitment to innovative research that advances scientific knowledge.