A team of chemical and biomolecular engineers, physicists and battery specialists affiliated with several institutions in the U.S. has developed a water-based battery that offers 2,000-cycle stability. In their paper published in the journal Nature Nanotechnology, the group outlines why they believe it could help bridge the gap between aqueous batteries and non-aqueous lithium-ion batteries.

The main advantage of using aqueous batteries is their safety compared to nonaqueous, lithium-ion batteries. They cannot ignite unexpectedly, minimizing fire hazard. The reason that they are not common is their reduction potential limit of aqueous electrolytes, which has restricted their energy density. Also, the current types of electrolytes they use tend to have problems with water shuttling the interface and high impedance.

In this new study, the research team has taken a step toward resolving these problems by improving ion transport and the stability of biphasic electrolytes via lithium ionophores.