Store sun’s energy in solution for conversion to Hydrogen fuel

A team of researchers has developed a novel way to store energy captured from the sun for use in conversion to Hydrogen fuel.

The work by the team involved creating a compound using a metal oxide that was bonded to dual light-sensitive molecules that were based on Ruthenium, a rare metal. The resulting molecules were then added to a solution containing Sodium ascorbate. Under such a setup, solar cells are not needed at all, instead light from the sun is directed onto the solution where its energy is captured via electrons from the salt—as it does so, the solution changes from clear to dark blue. Testing showed the liquid was viable for up to 24 hours.

The next phase of the process involves adding an acid (in their case sulfuric) to the solution—in so doing, the electrons combine with

Hydrogen ions in the acid to produce Hydrogen gas which can then be used as a fuel source.

Notably, the energy-holding molecules can be charged and discharged multiple times, though they will degrade over time—thus their recyclability is an issue.

The researchers also note Ruthenium is very expensive, which means they will need to keep searching for a suitable, less expensive replacement. They conclude by suggesting their work hints at the possibility of storing energy in a solution as an on-demand Hydrogen fuel source in real-world applications.