Photonic crystals on wood surfaces: tunable structural colors exhibiting iridescent effects and stimulus responsivity

IF 3 2区农林科学 Q1 FORESTRY

Wood Science and Technology Pub Date : 2025-10-08 DOI:10.1007/s00226-025-01708-9

Tao Zhao, Na Zhang, Qinglin Luo, Ruilin Tang, Yang Zhang, Zhiming Yu

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引用次数: 0

Abstract

Photonic crystals (PCs) with periodic nanostructures enable high-quality structural coloration, making them highly suitable for applications in printing and dyeing. However, PC-based structural coloration on wood surfaces remains a challenge. In this work, PCs were successfully constructed on wood (Birch, Betula spp.) surfaces via gravitational deposition, displaying bright, vibrant, and angular-dependent structural colors with stimulus-responsivity to water. Monodisperse polystyrene (PS) microspheres were used as building units. The colors were tunable through precisely modulating the diameter of the PS colloidal microspheres. The stacking configuration of the PS spheres within the interfacial transition region transitions from disordered to ordered. Drying-induced deformation of the micro-nano structures on the wood surface can lead to interfacial defects, such as disordered packing and cracks. Thanks to the water-responsive property of PCs, the coatings show promising potential for application in anti-counterfeiting labels. This work provides methodological and mechanistic insights for structural coloration on wood substrates, while offering many attractive opportunities for biomass materials.

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木材表面的光子晶体：可调谐的结构颜色，表现出彩虹效应和刺激响应性

具有周期性纳米结构的光子晶体（PCs）可以实现高质量的结构着色，使其非常适合用于印刷和染色。然而，基于pc的木材表面结构着色仍然是一个挑战。在这项工作中，pc通过重力沉积成功地构建在木材（桦树，桦树）表面上，显示出明亮，充满活力和角度相关的结构颜色，并具有对水的刺激响应性。采用单分散聚苯乙烯（PS）微球作为构建单元。通过精确调节PS胶体微球的直径，可以调节颜色。PS球在界面过渡区内的堆积构型由无序向有序转变。干燥引起的木材表面微纳结构的变形会导致界面缺陷，如无序堆积和裂纹。由于pc的水响应特性，该涂料在防伪标签应用中显示出很大的潜力。这项工作为木材基材的结构着色提供了方法论和机理上的见解，同时为生物质材料提供了许多有吸引力的机会。

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

Wood Science and Technology 工程技术-材料科学：纸与木材

CiteScore

5.90

自引率

5.90%

发文量

审稿时长

3 months

期刊介绍： Wood Science and Technology publishes original scientific research results and review papers covering the entire field of wood material science, wood components and wood based products. Subjects are wood biology and wood quality, wood physics and physical technologies, wood chemistry and chemical technologies. Latest advances in areas such as cell wall and wood formation; structural and chemical composition of wood and wood composites and their property relations; physical, mechanical and chemical characterization and relevant methodological developments, and microbiological degradation of wood and wood based products are reported. Topics related to wood technology include machining, gluing, and finishing, composite technology, wood modification, wood mechanics, creep and rheology, and the conversion of wood into pulp and biorefinery products.