Lithium-ion batteries may be getting a companion – or competitor – at some point, based on seawater. From UNIST:
Seawater batteries are similar to their lithium-ion cousins since they store energy in the same way. The battery extracts sodium ions from the seawater when it is charged with electrical energy and stores them within the cathode compartment. Upon electrochemical discharge, sodium is released from the anode and reacts with water and oxygen from the seawater cathode to form sodium hydroxide. This process provide energy to power, for instance, an electric vehicle.
While seawater batteries are more cost-effective than lithium-ion batteries, they are not quite ready for commercial distribution. Part of the reason is that these batteries have relatively low electrical power. output. To overcome this, UNIST will help design a more optimized cell geometry and standardized procedures for the battery. Together with KEPCO, the research team at UNIST plans on building cells with various sizes and shapes, thereby enhancing the charge rate of the battery by 20 Wh. Generally, a small smartphone lithium-ion battery stores about 10 Wh.
Hope they have a battery disposal plan in place before they go big-time.