The latest technological advancement in the field of vision has brought about a groundbreaking invention – contact lenses that enable humans to see infrared light. Developed by a team of researchers at the University of Science and Technology of China (USTC) in Hefei, these innovative contact lenses have the ability to convert near-infrared light into visible light that falls within the range detectable by the human eye.
This cutting-edge technology, detailed in a recent article published in Cell, utilizes nanoparticles infused into the lenses to facilitate the conversion of infrared light in the 800β1,600-nanometre range into shorter-wavelength visible light in the 400β700-nanometre range. The lenses, estimated to cost around $200 per pair to manufacture, have the potential to revolutionize the way humans perceive their surroundings.
One of the key advantages of these infrared vision contact lenses is their ability to provide a more advanced and versatile alternative to traditional night-vision goggles. While night-vision goggles are bulky and require an external power source to operate, the new lenses offer a more streamlined solution that is not only more convenient but also capable of producing richer, multi-colored infrared images. This surpasses the monochrome green scale typically seen through night-vision goggles.
Despite their impressive capabilities, the lenses do have some limitations. The embedded nanoparticles have a tendency to scatter light, resulting in slightly blurry images. To address this issue, the researchers have developed additional lenses that can be worn with the contacts to help redirect the light and improve image clarity. Furthermore, the lenses are only able to detect intense infrared signals, such as those emitted by LEDs, as opposed to low-level signals that can be picked up by traditional night-vision goggles.
While some critics question the practicality of these lenses, citing the simplicity of using infrared goggles instead, the researchers believe that further optimization of the technology could unlock a myriad of potential applications. For example, the lenses could be used to read anti-counterfeit marks that emit infrared wavelengths invisible to the naked eye. Additionally, they could be beneficial in near-infrared fluorescence surgery, allowing doctors to detect and remove cancerous lesions more efficiently.
The process of creating these groundbreaking contact lenses involved the incorporation of rare-earth metal nanoparticles into the lens material, a task that required precision and meticulous testing to ensure safety and effectiveness. Testing in mice revealed that animals wearing the lenses demonstrated a preference for dark areas over those lit by infrared light, showcasing the lenses’ ability to convert infrared signals into visible light. Human participants were able to perceive flickering infrared light from an LED, even with their eyes closed, demonstrating the lenses’ remarkable sensitivity and versatility.
As the researchers continue to refine and enhance the technology, the possibilities for its application are endless. With the potential to overcome the limitations of human vision and open up new avenues of exploration and discovery, these infrared vision contact lenses represent a significant leap forward in the field of vision enhancement.
This article was originally published on May 22, 2025, and is reproduced with permission.
