Structurally Colored Thermochromic Gels Derived from Plasmonic Gold Nanoparticles and Cholesteric Hydroxypropyl Cellulose.

IF 5.5 2区化学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biomacromolecules Pub Date : 2025-07-15 DOI:10.1021/acs.biomac.5c00693

Shunfeng Yu, Ziyi He, Han Tao, Wenwen Fang, Jiaqi Guo, Guang Chu

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Abstract

The integration of functional components into thermochromic photonic crystals has attracted considerable interest due to their potential for developing stimuli-responsive materials with distinctive optical characteristics. In this study, we demonstrate a series of optically tunable thermochromic gels, formed through the coassembly of gold nanoparticles with hydroxypropyl cellulose (HPC) at high concentrations (60-68 wt %), producing vibrant structural colors with enhanced light absorption. These composites not only preserve the chiral self-assembly of HPC in the presence of nanoparticles but also introduce tunable photonic-plasmonic coupling that responds to both temperature and concentration variations. Moreover, by exploiting the chiral light-matter interactions between the gold nanoparticles and the HPC, we observed a pronounced temperature-sensitive plasmonic optical activity, characterized by a strong negative peak on CD spectra, resulting from the chiral photonic modulation of the HPC. This approach for fabricating optically tunable thermochromic materials with engineered photonic-plasmonic coupling opens new avenues for advanced optical applications.

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由等离子体金纳米粒子和胆甾羟丙基纤维素制备的结构着色热致变色凝胶。

将功能元件集成到热致变色光子晶体中，由于其具有开发具有独特光学特性的刺激响应材料的潜力，已经引起了相当大的兴趣。在这项研究中，我们展示了一系列光学可调的热致变色凝胶，通过金纳米颗粒与高浓度（60-68 wt %）羟丙基纤维素（HPC）的共组装形成，产生具有增强光吸收的充满活力的结构色。这些复合材料不仅在纳米颗粒存在的情况下保持了HPC的手性自组装，而且还引入了可调谐的光子-等离子体耦合，该耦合对温度和浓度变化都有响应。此外，通过利用金纳米粒子与HPC之间的手性光物质相互作用，我们观察到明显的温度敏感等离子体光学活性，其特征是CD光谱上的强负峰，这是由HPC的手性光子调制引起的。这种利用工程光子-等离子体耦合制造光学可调谐热致变色材料的方法为先进的光学应用开辟了新的途径。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Biomacromolecules 化学-高分子科学

CiteScore

10.60

自引率

4.80%

发文量

417

审稿时长

1.6 months

期刊介绍： Biomacromolecules is a leading forum for the dissemination of cutting-edge research at the interface of polymer science and biology. Submissions to Biomacromolecules should contain strong elements of innovation in terms of macromolecular design, synthesis and characterization, or in the application of polymer materials to biology and medicine. Topics covered by Biomacromolecules include, but are not exclusively limited to: sustainable polymers, polymers based on natural and renewable resources, degradable polymers, polymer conjugates, polymeric drugs, polymers in biocatalysis, biomacromolecular assembly, biomimetic polymers, polymer-biomineral hybrids, biomimetic-polymer processing, polymer recycling, bioactive polymer surfaces, original polymer design for biomedical applications such as immunotherapy, drug delivery, gene delivery, antimicrobial applications, diagnostic imaging and biosensing, polymers in tissue engineering and regenerative medicine, polymeric scaffolds and hydrogels for cell culture and delivery.