A great deal of the light that falls on solar cell panels does little to generate electricity, with a high percentage bouncing off pointlessly. Princeton researchers have confronted this issue with a layered assembly, otherwise known as a subwavelength plasmonic cavity. Developed by Princeton University researcher Stephen Chou and a team of scientists, the cavity dampens reflections and traps light. According to Princeton’s announcement, “The new technique allowed Chou’s team to create a solar cell that only reflects about 4 percent of light and absorbs as much as 96 percent. It demonstrates 52 percent higher efficiency in converting [direct] light to electrical energy than a conventional solar cell.” Overall, the team was able to increase solar cell efficiency a total of 175 percent with their nanostructured sandwich by capturing not only direct sunlight, but angled rays and diffuse light that occurs on cloudy days. MIT researchers recently reported attempts to gather varying wavelengths of light to effect the same type of …