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Research Team Discovers How to Create and Control Structural Color

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Researchers from Pennsylvania State University (Penn State) and the Massachusetts Institute of Technology (MIT) have shown how a clear surface covered in transparent droplets and lit with a single white-light lamp can produce bright, iridescent colors if each droplet is precisely the same size. While studying transparent droplet emulsions made from a mixture of oils of different density and water-based surfactants, the researchers observed that the drops appeared blue. Initially they thought that the effect was due to Mie scattering (the same effect that causes rainbows). However, the...Read full article

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    Published: March 2019
    Glossary
    structural color
    Structural color refers to coloration in materials that is not caused by pigments or dyes but is instead a result of the physical structure of the material. In structural color, the interaction of light with the microscopic or nanoscopic structure of the material produces color through interference, diffraction, or other optical effects. This is in contrast to pigments, which achieve color by selectively absorbing certain wavelengths of light. Key characteristics of structural color...
    diffraction
    Diffraction is a fundamental wave phenomenon that occurs when a wave encounters an obstacle or aperture, causing the wave to bend around the edges and spread out. This effect is most commonly observed with light waves, but it can also occur with other types of waves, such as sound waves, water waves, and even matter waves in quantum mechanics. Wave interaction: Diffraction occurs when a wave encounters an obstacle (e.g., an edge or slit) or a series of obstacles, such as a diffraction...
    Research & TechnologyeducationAmericasMassachusetts Intitute of TechnologyMITPenn StateMaterialsOpticsstructural colorLight Sourcesdiffractionvisible wavelengthsConsumerindustrialDisplaysTech Pulse

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