Chapter 4. Biomimetics of Structural Colours: Materials, Methods and Applications

A. G. Dumanli, T. Savin
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Abstract

Structural coloration is a visible consequence of the patterning of a reflecting surface with regular nanostructures. Structural colours usually appear bright, shiny, iridescent or with a metallic look as a result of physical processes such as diffraction, interference, or scattering. Many biological materials exhibit such colours, originating from a strikingly wide variety of microarchitectures that have been precisely optimised by natural selection. The biomimicry of these materials has recently attracted much research effort in materials science, chemistry, engineering and physics. After detailing the physical principles behind structural colours, we review the techniques and materials employed to fabricate nature-inspired, colour-producing nanostructures. We also present recent advances in scaling up the production of these new materials, as well as some of their current and potential applications.
第四章。结构颜色的仿生学:材料、方法和应用
结构着色是具有规则纳米结构的反射表面图案的可见结果。由于衍射、干涉或散射等物理过程,结构色通常显得明亮、有光泽、彩虹色或具有金属外观。许多生物材料呈现出这样的颜色,源于各种各样的微结构,这些微结构经过自然选择的精确优化。这些材料的仿生学研究近年来在材料科学、化学、工程和物理等领域引起了广泛的关注。在详细介绍了结构颜色背后的物理原理之后,我们回顾了用于制造受自然启发、产生颜色的纳米结构的技术和材料。我们还介绍了扩大这些新材料生产的最新进展,以及它们目前和潜在的一些应用。
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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