A team from MIT has recently developed a double film coating that has the ability to transform infrared light into visible light.
While that may not outwardly seem like a huge gain for the energy technology sector, the development has the potential to vastly improve efforts in renewable. Essentially, this research could help increase the amount of light a solar cell could capture. By capturing and using protons below their normal bandgap and thus converting the typically unused infrared light into use visible light, researchers could see efficiency levels of solar panels rise.
The researchers went about this development by placing two films on top of a plate of glass. The bottom film was comprised by using a type of quantum dot, while the top layer was made up of an organic molecule.
This from Phys.org:
In the two film approach, the top film absorbs infrared light, and the energy from it is then transferred to the bottom film. That energy, which exists in the form of excitons is then diffused as it passes through the rubrene—a process called triplet–triplet annihilation. They tested the films by shining an infrared laser at the finished product and found it glowed with visible light—it works, the team notes, because the collision of two low-energy excitons create high-energy excitons, i.e. singlets, which can emit visible light. The team reports that the films are quite efficient at converting the infrared light to visible light.
But the possibilities for the development don’t end at solar cells. Researchers believe this technology could make its way into everything from cameras to night-vision goggles.[Image: Nature Photonics]