Medicine & TechnologyIn the advent of renewable energy, solar paint has been making a buzz across the globe as a possible tool in advancing green architecture and solar panels.
With the coming of spring, and the looming global warming ever at our odds, it’s clear that there’s enough heat already out in the world. So why would you want your “green” energy practices to contribute ever more to that heat? Current methods, for example, in the production of solar cells used to capture energy require an intense recrystallization process that comes at the price of a drastic raise in the temperature of the substance—perovskite. But now, thanks to chemists at Brown University, the green energy movement may soon be equated with a cooler movement, as well.
If you’ve ever ventured out into the middle of the desert, you’ve likely encountered a solar field of sorts. On the way to Las Vegas, for example, there exists a solar plant that leverages thousands of glass reflectors to burn hot with the power of the sun. But when it comes to more domesticate uses of the sun, researchers and consumers have been limited by the capabilities of light-absorbing perovskite films used in solar cells. Now, however, thanks to a PhD researcher at Brown University, the tides may have changed.