Science breakthrough could result in cheaper solar power
Molecules that contain iron could capture energy from sunlight. Swedish researchers from Lund University have discovered a new method for capturing energy from sunlight that involves the use of molecules that contain iron, and their discovery may lead to cheaper and more eco-friendly solar power applications. The researchers have produced an iron-based dye capable of transforming sunlight into electrons. Researchers from Lund University’s Chemistry Department collaborated with Uppsala University, and successfully produced an iron-based dye that can convert light into electrons with almost 100…
Molecules that contain iron could capture energy from sunlight.
Swedish researchers from Lund University have discovered a new method for capturing energy from sunlight that involves the use of molecules that contain iron, and their discovery may lead to cheaper and more eco-friendly solar power applications.The researchers have produced an iron-based dye capable of transforming sunlight into electrons.
Researchers from Lund University’s Chemistry Department collaborated with Uppsala University, and successfully produced an iron-based dye that can convert light into electrons with almost 100 percent efficiency. According to a press release from Lund University, the researchers are working on solar cells that consist of a thin film of nanostructured titanium dioxide and a solar energy capturing dye. Currently, the best solar cells of this kind utilize dyes that contain a very rare and costly element called ruthenium metal.
The iron-based dye that the researchers produced is a huge breakthrough because while they are not the first to attempt to replace ruthenium with iron, they are the first to do so with success. “All previous attempts have resulted in molecules that convert light energy into heat instead of electrons, which is required for solar cells to generate electricity,” said Vily Sundström, a Lund University professor of chemical physics.