Korean Scientists Develop Foldable and Washable Luminescent Film Enabling Efficient Infrared Light Conversion

The Korea Institute of Science and Technology (KIST) announced a new development of a multi-functional luminescent film that can visualize near-infrared light through wavelength conversion that converts near-infrared light to visible light for innovative applications.

Dr. Kwon Seok-joon at the Nanophotonics Research Center of KIST and Ko Doo-hyun, a professor of applied chemistry at Kyung Hee University jointly led the team to develop the flexible, transparent and washable film which can convert infrared light into visible light. The results were published in the journal, Advanced Functional Materials, in February 2020, titled “A Multi‐Functional Highly Efficient Upconversion Luminescent Film with an Array of Dielectric Microbeads Decorated with Metal Nanoparticles.”

The conversion of invisible infrared or ultraviolet light into visible light allows us to intuitively see the data contained in the light, and thus enables the use of infrared or ultraviolet light for displays or imaging devices. Quantum dots, recently used for high-definition TVs, can be seen as a type of wavelength conversion technology that converts ultraviolet light into visible light in displays.

Near-infrared light is low in energy, and at least two near-infrared photons are absorbed and converted into one higher-energy photon. Thus, the conversion efficiency of converting near-infrared light into visible light is extremely low and is about 1/100 to 1/1000 the efficiency in comparison to quantum dots conversion. This was a major stumbling block in making the near-infrared-to-visible light conversion more realistic for wider application in various fields in the form of sensors, displays, and imaging devices.

The research team at KIST made a square lattice array of oxidized silicon (silica) microbeads decorated with up-conversion nanoparticles and metal structures. This configuration maximizes both the absorption of near-infrared light and the luminescence of visible light, thus increasing the efficiency of near-infrared-to-visible light conversion by nearly 1,000 times.


(Image: KIST)

The lattice configuration of silica microbeads developed by the research team can easily be transferred to a transparent film. This type of film was found to be flexible, foldable, and even washable with the light intensity maintained after wavelength conversion.

"Existing infrared sensors can only collect one type of data, but this technology can be used to collect various types of data all at once and visualize them," said Dr. Kwon Seok-joon from KIST, who led the research. "Since this technology has various advantages in processing, such as foldability, washability, and transferability into other films, its application can be extended throughout various fields, and it can be used for foldable devices, wearable sensors, and flexible wavelength conversion imaging devices."

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