Researchers from Russia-based ITMO University have created a perovskite-based surface that can turn normal glass into a smart surface. The surface will also be able to convert solar energy into electricity.

"Perovskite films are successfully implemented in LED production. We want to use these films to create surfaces that could be potentially used in AR screens. They have to be transparent enough for users to be comfortable looking through them. At the same time, they have to radiate light to display the necessary information on the screen," explains Sergey Makarov, lead researcher at ITMO's Faculty of Physics and Engineering.

Originally, perovskite films have a reflection coefficient of 30%, which means that they do not transmit around a third of the light that enters them. Researchers from ITMO's Faculty of Physics and Engineering with their collaborators from the St. Petersburg National Research Academic University of the Russian Academy of Sciences have created a surface that transmits as much light as possible without reflecting almost any of it. It was also crucial to preserve the film's useful properties so that the users looking through them would not feel like there is a barrier in front of their eyes.

In order to lower the reflection coefficient, the researchers modified the films and turned them into a metasurface. They had to remove a layer of perovskite from the film to etch a certain pattern of nanoparticles on it. That way, the surface interacts with light differently. The pattern was created with nanometer precision using ion nanolithography.

"When our colleagues applied these methods to create nanostructures, they noticed that the exposed areas of metasurfaces became dark and burnt out. Even though a lot of the material was left, it did not luminesce under ultraviolet excitation. To solve this problem we applied the alcohol salt solution vapor to the perovskite surface, which allowed us to quickly restore the material's properties. For example, we increased its luminescence and lowered its reflection coefficient by means of this method," explains Tatiana Liashenko, a Ph.D. student at the Faculty of Physics and Engineering.

The researchers explained that they were able to determine the geometric parameters under which perovskite nanoparticles can interact with light in a broad range of the solar spectrum. In this way, they said, most of the energy follows the direction of light. The rest of it is absorbed by the perovskite and transformed into photoluminescence. As a result, they get a highly transparent anti-reflective metasurface with active properties.



The team is now planning to implement its novel solution into optoelectronic devices.

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