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- Title
Investigating the nanomechanical properties and reversible color change properties of the beetle Dynastes tityus.
- Authors
Sun, Jiyu; Wu, Wei; Liu, Chao; Tong, Jin
- Abstract
The wing cases (elytra) of Dynastes tityus are able to change coloration from yellow-green in a dry state to deep brown in a wet state due to different degrees of water absorption. An environmental scanning electron microscope was used to investigate the elytra's reversible color change properties. Because the elytra cuticle has a spongy structure that is composed of laminated chitin and protein, a UV-Vis-NIR spectrophotometer was used to investigate the elytra's optical properties. The width of the curve peak gradually decreased from 60 to 10 nm when the color of the elytra varied from deep brown to yellow-green. In a humid environment, air between the voids was replaced by water with a higher refractive index that induced an elytra color changed from yellow-green to deep brown. Interestingly, when both humidity and elytra color changed, the elytra's mechanical properties varied too. When the humidity of the environment changed from 100 to 34%, the reduced modulus ( E ) and hardness ( H) of the elytra increased 230 and 440%, respectively. The storage modulus ( E′) of the elytra is 1.98 ± 0.65 and 1.17 ± 0.22 GPa in yellow-green and deep brown color at 10 Hz, respectively, while their loss modulus ( E″) is similar. tan δ of deep brown elytra is 0.072 ± 0.017, which is nearly two times higher than that of yellow-green. It can be demonstrated that when the elytra's color turns to yellow-green, they are more elastic with less energy loss. The relationship between the elytra's mechanical properties and structure color will not only help us gain insight into the biological functionality of the color change but also inspire the designs of artificial biomimetic devices.
- Subjects
DYNASTES; NANOMECHANICS; INSECT wings; OPTICAL properties; PHYSIOLOGICAL effects of humidity
- Publication
Journal of Materials Science, 2017, Vol 52, Issue 11, p6150
- ISSN
0022-2461
- Publication type
Article
- DOI
10.1007/s10853-017-0895-y