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    Diatom valves, natural photonic structures, were used to create a biological super-resolving lens. This novel lens achieves sub-diffractive focusing, significantly enhancing optical resolution for advanced imaging applications.

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    Area of Science:

    • Biophotonics
    • Materials Science
    • Evolutionary Biology

    Background:

    • Nature, particularly diatoms, exhibits intricate photonic structures for light manipulation.
    • These structures, like diatom valves, evolved for survival, optimizing light capture in low-light environments.
    • Structural coloration and light exploitation are key functions of these natural photonic elements.

    Purpose of the Study:

    • To engineer a biological super-resolving lens using diatom valves.
    • To achieve sub-diffractive focusing in the far field for enhanced imaging.
    • To leverage the unique optical properties of diatom valves for advanced optical applications.

    Main Methods:

    • Utilizing a single diatom valve from the Arachnoidiscus genus.
    • Employing structured illumination techniques.
    • Characterizing valve transmission properties via optical eigenmode analysis.

    Main Results:

    • Demonstrated a biological lens capable of super-resolution.
    • Achieved sub-diffractive focusing with unprecedented precision.
    • Attained a resolution limit ratio of 0.21λ/NA, surpassing conventional limits.

    Conclusions:

    • Diatom valves are effective biological components for creating advanced optical devices.
    • This bio-inspired approach offers a novel pathway for super-resolution imaging.
    • The study highlights the potential of harnessing evolutionary designs for technological innovation.