Microstructural design for mechanical-optical multifunctionality in the exoskeleton of the flower beetle Torynorrhina flammea

<jats:p>Biological systems have a remarkable capability of synthesizing multifunctional materials that are adapted for specific physiological and ecological needs. When exploring structure-function relationships related to multifunctionality in nature, it can be a challenging task to address p...

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Main Authors: Jia, Zian (Author), Fernandes, Matheus C (Author), Deng, Zhifei (Author), Yang, Ting (Author), Zhang, Qiuting (Author), Lethbridge, Alfie (Author), Yin, Jie (Author), Lee, Jae-Hwang (Author), Han, Lin (Author), Weaver, James C (Author), Bertoldi, Katia (Author), Aizenberg, Joanna (Author), Kolle, Mathias (Author), Vukusic, Pete (Author), Li, Ling (Author)
Format: Article
Language:English
Published: Proceedings of the National Academy of Sciences, 2022-01-07T17:49:49Z.
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042 |a dc 
100 1 0 |a Jia, Zian  |e author 
700 1 0 |a Fernandes, Matheus C  |e author 
700 1 0 |a Deng, Zhifei  |e author 
700 1 0 |a Yang, Ting  |e author 
700 1 0 |a Zhang, Qiuting  |e author 
700 1 0 |a Lethbridge, Alfie  |e author 
700 1 0 |a Yin, Jie  |e author 
700 1 0 |a Lee, Jae-Hwang  |e author 
700 1 0 |a Han, Lin  |e author 
700 1 0 |a Weaver, James C  |e author 
700 1 0 |a Bertoldi, Katia  |e author 
700 1 0 |a Aizenberg, Joanna  |e author 
700 1 0 |a Kolle, Mathias  |e author 
700 1 0 |a Vukusic, Pete  |e author 
700 1 0 |a Li, Ling  |e author 
245 0 0 |a Microstructural design for mechanical-optical multifunctionality in the exoskeleton of the flower beetle Torynorrhina flammea 
260 |b Proceedings of the National Academy of Sciences,   |c 2022-01-07T17:49:49Z. 
856 |z Get fulltext  |u https://hdl.handle.net/1721.1/138843 
520 |a <jats:p>Biological systems have a remarkable capability of synthesizing multifunctional materials that are adapted for specific physiological and ecological needs. When exploring structure-function relationships related to multifunctionality in nature, it can be a challenging task to address performance synergies, trade-offs, and the relative importance of different functions in biological materials, which, in turn, can hinder our ability to successfully develop their synthetic bioinspired counterparts. Here, we investigate such relationships between the mechanical and optical properties in a multifunctional biological material found in the highly protective yet conspicuously colored exoskeleton of the flower beetle, <jats:italic>Torynorrhina flammea</jats:italic>. Combining experimental, computational, and theoretical approaches, we demonstrate that a micropillar-reinforced photonic multilayer in the beetle's exoskeleton simultaneously enhances mechanical robustness and optical appearance, giving rise to optical damage tolerance. Compared with plain multilayer structures, stiffer vertical micropillars increase stiffness and elastic recovery, restrain the formation of shear bands, and enhance delamination resistance. The micropillars also scatter the reflected light at larger polar angles, enhancing the first optical diffraction order, which makes the reflected color visible from a wider range of viewing angles. The synergistic effect of the improved angular reflectivity and damage localization capability contributes to the optical damage tolerance. Our systematic structural analysis of <jats:italic>T. flammea</jats:italic>'s different color polymorphs and parametric optical and mechanical modeling further suggest that the beetle's microarchitecture is optimized toward maximizing the first-order optical diffraction rather than its mechanical stiffness. These findings shed light on material-level design strategies utilized in biological systems for achieving multifunctionality and could thus inform bioinspired material innovations.</jats:p> 
546 |a en 
655 7 |a Article 
773 |t 10.1073/PNAS.2101017118 
773 |t Proceedings of the National Academy of Sciences of the United States of America