3D Network Magnetophotonic Crystals Fabricated on <i>Morpho</i> Butterfly Wing Templates

Peng, Wenhong; Zhu, Shenmin; Wang, Wanlin; Zhang, Wang; Gu, Jiajun; Hu, Xiaobin; Zhang, Di; Chen, Zhuo

doi:10.1002/adfm.201103032

Cited by 92 publications

(67 citation statements)

References 33 publications

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“…The hierarchical photonic structure existing in the scales is an ideal resource for biomimetic technology. We presented that various functional metal oxide with hierarchical structures can be synthesized by a direct template method using butterfly‐wing scales, including TiO 2 , ZnO, ZrO 2 , Fe 3 O 4 , and SnO 2 ; of these, SnO 2 demonstrated an extremely high sensitivity and rapid response and recovery to ethanol vapors owing to the large surface area and hierarchical photonic structure…”

Section: Introductionmentioning

confidence: 99%

Bioinspired Thermoresponsive Photonic Polymers with Hierarchical Structures and Their Unique Properties

Zhu

et al. 2015

Macromol. Rapid Commun.

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Thermoresponsive photonic materials having hierarchical structures are created by combining a template of Morpho butterfly wings with poly(N-isopropylacrylamide) (PNIPAM) through a chemical bonding and polymerization route. These materials show temperature-induced color tunability. Through reacting with both NIPAM monomers and the amino groups of chitosan in wing scales, glutaraldehyde workes as a bridge by creating chemical bonding between the biotemplate and the PNIPAM. The corresponding reflection peaks red-shift with increase in temperature-an opposite phenomenon to previous studies, demonstrating a thermoresponsive photonic property. This unique phenomenon is caused by the refractive index change due to the volume change of PNIPAM during the temperature rising. This work sets up an efficient strategy for the fabrication of stimuli-responsive photonic materials with hierarchical structures toward extensive applications in science and technology.

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Section: Introductionmentioning

confidence: 99%

Bioinspired Thermoresponsive Photonic Polymers with Hierarchical Structures and Their Unique Properties

Zhu

et al. 2015

Macromol. Rapid Commun.

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“…Among many applications, there are those to enhance the efficiency of solar cells 41–43 and those with the focus on tuning the functionality of the systems within the visible spectrum 44 are noteworthy. In the present study, we focus on structures which show the potential to be used in mid-infrared wavelength spectrum for radiative cooling applications, which have not yet been thoroughly investigated.…”

Section: Introductionmentioning

confidence: 99%

A biomimicry design for nanoscale radiative cooling applications inspired by Morpho didius butterfly

Didari

Mengüç

2018

Sci Rep

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In nature, novel colors and patterns have evolved in various species for survival, recognizability or mating purposes. Investigations of the morphology of various butterfly wings have shown that in addition to the pigmentation, micro and nanostructures within the wings have also allowed better communication systems and the pheromone-producing organs which are the main regulators of the temperature within butterfly wings. Within the blue spectrum (450–495 nm), Morpho didius butterfly exhibit iridescence in their structure-based wings’ color. Inspired by the rich physics behind this concept, we present a designer metamaterial system that has the potential to be used for near-field radiative cooling applications. This biomimicry design involves SiC palm tree-like structures placed in close proximity of a thin film in a vacuum environment separated by nanoscale gaps. The near-field energy exchange is enhanced significantly by decreasing the dimensions of the tree and rotating the free-standing structure by 90 degrees clockwise and bringing it to the close proximity of a second thin film. This exchange is calculated by using newly developed near-field radiative transfer finite difference time domain (NF-RT-FDTD) algorithm. Several orders of enhancement of near-field heat flux within the infrared atmospheric window (8–13 μm bandwidth) are achieved. This spectrally selective enhancement is associated with the geometric variations, the spatial location of the source of excitation and the material characteristics, and can be tuned to tailor strong radiative cooling mechanisms.

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“…17,[119][120][121][122][123] Colloidal crystal is a representative structure, scientists have successfully utilized silica colloids as well as PS colloids to fabricate 3D structure. 17,[119][120][121][122][123] Colloidal crystal is a representative structure, scientists have successfully utilized silica colloids as well as PS colloids to fabricate 3D structure.…”

Section: Highly Ordered 3d Structure With Stacking Characteristicmentioning

confidence: 99%

One-dimensional photonic crystals: fabrication, responsiveness and emerging applications in 3D construction

et al. 2016

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a One dimensional photonic crystal (1DPC), which is a periodical nanostructure with a refractive index distribution along one direction is widely studied by scientists. In this review, the material and fabrication methods of 1DPC fabrication are summarized. The applications are listed with a special emphasis on sensing platform and photovoltaic devices together with full color display. After that, some typical 3D ordered structures with stacked layers are highlighted, the fabrication method is also described and the remaining problems are pointed out. At last, the possibility to build 3D stacked structure based on 1D layers through chemical routes is discussed, which is relatively convenient and flexible. We believe such method is a promising substitute way to conduct 3D fabrication.

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3D Network Magnetophotonic Crystals Fabricated on Morpho Butterfly Wing Templates

Cited by 92 publications

References 33 publications

Bioinspired Thermoresponsive Photonic Polymers with Hierarchical Structures and Their Unique Properties

Bioinspired Thermoresponsive Photonic Polymers with Hierarchical Structures and Their Unique Properties

A biomimicry design for nanoscale radiative cooling applications inspired by Morpho didius butterfly

One-dimensional photonic crystals: fabrication, responsiveness and emerging applications in 3D construction

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