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Nanoscale wrinkles on films can display or conceal vibrant color patterns
A research team, led by Professor Taesung Kim from the Department of Mechanical Engineering at UNIST, reports the development of a technology that utilizes nanoscale wrinkles formed on transparent films to display or conceal color patterns, such as the traditional Korean Dancheong designs, by folding and unfolding the film.
The work is in the journal Advanced Functional Materials.
The developed technology is based on the principle of structural coloration. Structural colors emerge when light interferes with nanostructures. Just like chameleons or peacocks can produce blue colors without blue pigment cells due to their skin or feather nanostructures, this technology uses nanoscale wrinkles to achieve the same effect.
The research team employed these nanostructures to create wrinkles, which only appear when the film is bent, allowing for the display or concealment of colors. By adjusting the spacing and height of the wrinkles, a variety of colors can be generated.
To ensure that wrinkles only appear when the film is bent, a dual-layer film structure was designed. A rigid film is placed over a flexible one, causing nanoscale wrinkles to form on the surface of the rigid film due to the physical property differences between the two layers when force is applied.
This principle is similar to how wrinkles form on the epidermis when pinching the skin with the thumb and index finger due to differences in density between the epidermal and dermal layers.
Using a dual photolithography technique, the research team created wrinkle pixels with varying spacing and heights on a single film. The wrinkles had spacings ranging from 800 to 2,400 nm and heights from 100 to 450 nm, which confirmed their ability to produce colors across the entire visible spectrum.
Additionally, the team successfully patterned Dancheong designs based on the wrinkle pixels. These designs only appeared when the transparent film was bent and reverted back to a transparent state when the force was released.
Professor Kim stated, "This technology allows for the creation of variable structural colors through a simple process. Unlike existing dye-based technologies, the colors do not fade over time, making it highly competitive not only for anti-counterfeiting applications but also for stimuli-responsive smart displays."
Furthermore, the technology is set to be licensed to N.B.S.T., a domestic anti-counterfeiting solution company, for commercialization.
More information: Kaliannan Thiyagarajan et al, Monolithic Micro鈥/Nanoarchitectonic Multi鈥怢evel Pixel Arrays Via a Two鈥怱tep Photo鈥怌ross鈥怢inking Process for Multi鈥怣odal and Transformative Structural Coloration, Advanced Functional Materials (2025).
Journal information: Advanced Functional Materials
