Abstract
Fireflies have drawn considerable attention for thousands of years due to their highly efficient bioluminescence, which is important for fundamental research and photonic applications. However, there are few reports on the reflector layer (RL) of firefly lantern, which contributes to the bright luminescence. Here we presented the detailed microstructure of the RL consisting of random hollow granules, which had high reflectance in the range from 450 nm to 800 nm. Inspired by the firefly lantern, artificial films with high reflectance in the visible region were fabricated using hollow silica microparticles mimicking the structure of the RL. Additionally, the bioinspired structures provided an efficient RL for the chemiluminescence system and could substantially enhance the initial chemiluminescence intensity. The work not only provides new insight into the bright bioluminescence of fireflies, but also is importance for the design of photonic materials for theranostics, detection, and imaging.
Highlights
On the cuticle could help to efficiently extract the bioluminescence light[30]
The micro granules in the RL were found to be hollow by transmission electron microscopy (TEM) (Fig. 1f, the inset), which was rarely discovered in nature
The hollow structure was confirmed by scanning electron microscopy (SEM) and atomic force microscopy (AFM) (Fig. S2)
Summary
The detailed microstructure of the reflector layer. The fireflies were collected in Beijing (China) in summer. The results indicated the structure with hSiO2 played a special role in the chemiluminescence system As another control, the structure composed of solid silica particles (sSiO2) with diameter 1.08 μ m on average The results showed that the unique structure mimicking the RL of LOs presented superior performance to enhance the intensity of emitted light. The bioinspired structure displayed high reflectance in a broad wavelength region, which acted as a reflector to boost the chemiluminescence light extraction. The bioinspired investigation will provide new insight into understanding the function of the RL of LOs on bioluminescence, and the design of photonic materials for chemiluminescence systems, which is promising for the development of detection, imaging, light sources, and reflectors
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